DE29503919U1 - Device for fine adjustment and clamping of a telescope mounted rotatably about a horizontal axis, in particular for geodetic devices - Google Patents

Description

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Device for fine adjustment and clamping of a telescope mounted so that it can rotate around a horizontal axis, in particular for geodetic instruments

The invention relates to a device for fine adjustment and clamping of a telescope mounted so as to be rotatable about a horizontal axis, in particular for geodetic instruments such as theodolites, according to the preamble of the first claim.

Coaxial fine and clamping drives for theodolites are known, in which the operating elements are arranged coaxially in the form of rotary knobs (Deumlich "Instrumentenkunde der Vermessungstechnik" 8th edition, VEB Verlag für Bauwesen, Berlin 1988, pages 84 and 85). A lever is provided for the fine movement of the telescope around the horizontal tilting axis, with which the rotation of a rotary knob is transferred to the tilting axis. The clamping is carried out using a clamping screw and clamping piece, which is pressed against a bushing on the tilting axis and clamps it.

Due to the way in which the rotary movement of the rotary knobs is transmitted to the parts to be moved, the operating elements for these drives are arranged on the side of the device facing the operator or away from the operator. However, these designs are not user-friendly, as the physiology and anatomy of the human hand allows the rotary movement of a rotary knob to be made much better on the left or right side of the device, rather than in front of the operator's chest or by reaching around the device.

Other solutions are known in which the operating elements for drives and clamps are located on one (usually right) side of the device in separate assemblies

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are arranged. This user-friendly arrangement of the controls is achieved at the expense of a complex lever system with a corresponding number of individual parts and bearing points. Another disadvantage is that the large number of individual parts means that the play between the parts and the elasticity of the parts can add up to a large reversal range or a large dead space on the control element, which largely prevents sensitive and precise adjustment of the telescope.

The invention is based on the object of creating a device for fine adjustment and clamping of a telescope mounted so as to be rotatable about a horizontal tilt axis, in particular for geodetic devices, which is arranged on the device in a user-friendly manner and, with a coaxial arrangement of the operating elements, enables highly precise fine adjustment and clamping of the element to be moved with a small number of components.

According to the invention, this object is achieved by the means of the characterizing part of the first claim. Further details of the invention are disclosed in the subclaims.

A particularly simple connection of the first operating element with the fine adjustment lever is achieved if one or more teeth are arranged on the fine adjustment lever as a coupling element, which engage positively in the face thread. The face thread advantageously has a constant pitch, but this does not have to be a requirement. In order to avoid a possible reversal error when reversing movement, at least one spring-loaded means fixed to the housing is provided, which always presses the at least one coupling element against one and the same flank of the face thread. A tension spring can advantageously be provided as the spring-loaded means, which engages on the one hand on the fine adjustment lever and on the other hand on the housing of the device.

It is also advantageous that the shaped element connected to the second operating element via gear and/or coupling elements is designed as an eccentric disk or as a radially acting wedge, preferably in the form of a radially expanding cylinder surface, which, when the operating element is rotated, moves the plunger mounted in the fine adjustment lever in its axial direction against the clamping element. So that the operating element comes to a stop both when it is released and when it is clamped, the cylinder surface does not have a slope over the entire circumference. When clamping or releasing, the plunger runs against a wall that borders the cylinder surface.

The clamping lever, which serves as the actual clamping device, is simply machined out of the fine adjustment lever and connected to the fine adjustment lever by a bending joint and has a predetermined bending point between its contact point on the flange and its free end. This comes into operation when the longitudinal movement of the plunger has not yet ended despite the clamping already having taken place.

The device according to the invention enables user-friendly operation of geodetic devices with few components. Sensitive fine adjustment and locking of the telescope, which is mounted so it can pivot around the tilt axis, is reliably achieved.

The invention will be explained in more detail below using an exemplary embodiment. The drawing shows

Fig.1 greatly simplified a geodetic device with fine adjustment lever,

Fig. 2 a fine adjustment lever in side view and

Fig. 3 shows a partial section through the device according to the invention.

The geodetic device shown in Fig. 1 in a highly simplified form, for example a theodolite, comprises a housing 1 in which a tilting axis 3 carrying a telescope 2 is arranged. The telescope 2 can be pivoted about this tilting axis 3. A fine adjustment lever 5 is mounted in a lockable manner on a flange 4 of the tilting axis 3, so that the telescope 2 can be pivoted about the tilting axis 3 by pivoting the fine adjustment lever 5. To carry out the adjustment and locking of the fine adjustment lever 5, a first 6 and a second control element 7 are arranged coaxially to one another on the outside of the housing 1. The entire device is mounted on a tripod 8.

As shown in Fig. 2 and 3, the flange 4 is attached to the tilting axis 3 of the telescope 2. The fine adjustment lever 5 is mounted on this flange 4 with a small radial play and is axially secured by a ring 9. A clamping lever 10 made from its material and serving as a clamping element is provided on the fine adjustment lever 5 and is connected to the fine adjustment lever 5 by a flexible joint 11. The fine adjustment lever 5 is clamped by pressing the clamping lever 10 onto the outer surface of the flange 4 by axially moving a plunger 12. The plunger 12 is moved against an inclined surface 17 of the free, springy end 16 of the clamping lever 10, whereby the latter rests against the flange 4 with its contact point 13. Two further contact points 14 and 15 are located on the inner surface of the bore of the fine adjustment lever 5. A threaded pin 18 arranged in a bore of the fine adjustment lever 5 is used to adjust the clamping force by screwing in and out the threaded pin 18 to adjust the distance between the contact point of the

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Tappet 12 with clamping lever 10 is changed by the bending joint 11 of the clamping lever 10.

For the longitudinal displacement of the tappet 12, a cylinder 19 with an outwardly rising, eccentric surface acting as a rotary wedge against which the tappet 12 rests in a force-locking manner is provided in the part of the fine adjustment lever 5 remote from the tilting axis 3 as a rotatable shaped element. The eccentric surface 20 is located on a smaller radius than the remaining surface of the cylinder 19, so that the tappet 12 engages in the cylinder, thus preventing axial displacement of the cylinder on its bearing axis without additional components. Coupling elements 21 are arranged between the second operating element 7 arranged on the outside of the housing 1 and the cylinder 19, which transmit the rotary movement of the operating element 7 to the cylinder 19. Such a coupling element 21 can e.g. B. be a so-called Hooke key, which on the one hand engages in a component 23 of the cylinder 19 and on the other hand engages an axis 24 firmly connected to the operating element 7.

In order to limit the rotation of the operating element 7 by a stop both when releasing and when clamping, the eccentric surface 20 is only designed over approximately 150° of the circumference, and thus the plunger 12 runs against the respective wall in the cylinder 19 that limits the eccentric surface 20. A reliable stop during clamping is only achieved if the cylinder 19 can rotate sufficiently far, even if the fine adjustment lever 5 has already been clamped to the flange 4. For this, a certain overrun of the longitudinal movement of the plunger 12 is necessary, which can be implemented by a predetermined bending point 24 on the clamping lever 10. The predetermined bending point 24 is preferably designed as a thin material area machined out of the clamping lever 10.

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As soon as a clamping has taken place, there is a firm connection between the flange 4 located on the tilt axis 3 and the fine adjustment lever 5 placed on it. This means that by pivoting the fine adjustment lever 5, a rotation of the telescope 2, which is firmly connected to the tilt axis 3, can be achieved around the tilt axis 3. To initiate a sensitive rotation of the telescope 2 around the tilt axis 3, a first operating element 6 is provided on the outside of the housing 1, mounted coaxially to the second operating element 7. This operating element 6 is connected to a drive element 26 having a face thread 25, which is in a positive operative connection with at least one coupling element 27 arranged on the fine adjustment lever 5. This at least one coupling element 27 is advantageously designed as a tooth or several teeth, which engage or engage in the face thread 25. In the exemplary embodiment, for example, two teeth are arranged on the fine adjustment lever 5. By rotating the drive element 26 with the help of the operating element 6, the fine adjustment lever 5 is pivoted in the direction of the arrow (Fig. 2) around the tilt axis 3 according to the pitch of the face thread 25 and with the help of the coupling elements 27 engaging therein, and thus also the telescope 2. A spring-loaded means 28 arranged on the housing 1 and on the fine adjustment lever 5, advantageously in the form of a tension spring, ensures that the coupling elements 27 always rest on the same flank of the face thread 25 and thus a play-free and reversal-free movement transfer from the first operating element 6 to the fine adjustment lever 5 and thus to the telescope 2 takes place. In this way, a sensitive and precise pivoting of the telescope 2 around the tilt axis 3 and a secure clamping and thus locking of the tilt axis 3 are achieved with a small number of components and thus with little technical effort and a high level of safety.

Claims (5)

Protection claims 1. Device for fine adjustment and clamping of a telescope mounted so as to be rotatable about a horizontal tilt axis, in particular for geodetic instruments, with a first operating element which is connected to a clamping element and with a second operating element which is connected to a fine adjustment lever which can be pivoted about the horizontal tilt axis, the first and second operating elements being arranged coaxially on the instrument and so as to be rotatable about an axis, characterized, that the fine adjustment lever (5), which has a spring-loaded clamping lever (10) as a clamping element, is mounted on a flange (4) arranged on the horizontal tilting axis (3) on several contact points (13; 14; 15), of which one contact point (13) is located on the clamping lever (10),
that the first operating element (6) is connected to a drive element (26) having a face thread (25) which is in positive connection with coupling elements (27) arranged on the fine adjustment lever (5),
and that at the end of the fine adjustment lever (5) remote from the tilting axis (3) there is provided a shaped element (23) which can be rotated by the second operating element (7) and which is non-positively connected to one end of a plunger (12), the other end of the plunger (12) being in non-positively operative connection with the free end of the clamping lever (10). 2. Device according to claim 1, characterized in that at least one tooth is arranged on the fine adjustment lever (5) as a coupling element (27) which engages in the face thread (25) of the drive element (26). -&Ggr;" 3. Device according to claim 1, characterized in that the rotatable component (23) is an eccentric disc or a cylinder (19) with an eccentric outer surface (20) or a radially acting rotary wedge . 4. Device according to claim 1, characterized in that the clamping lever (5) is connected to the fine adjustment lever (5) by a bending joint (11) in the area of the bore that encompasses the contact points (13; 14; 15) and receives the flange (4), and that the clamping lever (10) has a predetermined bending point (24) between its contact point (13) and its free end (16). 5. Device according to claim 1 and 2, characterized in that that at least one resilient means (28) fixed to the housing is provided, such that the at least one coupling element (27) is always operatively connected to the same flank of the face thread (25).