CS248923B1 - Axially positioning device especially for pitchers - Google Patents

Abstract

The solution relates to increasing the accuracy of axial positioning of workpieces during clamping. The essence of the invention is that at least one positioning element, for example of a cylindrical geometric shape, is arranged axially displaceable relative to the carriers, while at an axial distance from the axis of the chuck the positioning element has a pair of stop surfaces arranged, of which the rear one is for the front reference surface of the chuck and the front one is for the stop surface of the external body, for example of the workpiece.

Description

The object of the invention is an axially positioning device, in particular for chucks, in which the arrangement of the positioning element is solved in order to increase the positioning accuracy of the chucked objects.

In the prior art axial positioning devices, the positioning element, most often a grinding head screw, is mounted on a support, which is usually attached to the radial T groove of the chuck body by means of known T-nuts.

The precise axial position of the workpiece from the face of the chuck is bound by a long precision string given by the gripping of the positioning element on the carrier, in some cases through the set of washers, and the carrier on the chuck body. However, the positioning accuracy also depends on the tightening of the respective screw connections. Moreover, these solutions do not allow their automatic replacement, which is desirable especially in automated technology workplaces.

Automatic exchange of axial stops is solved also in eg. AO 207 151, however, where the position of the axial stops relative to the chuck face is also tied to the precise position of the carrier relative to the chuck face.

The axial positioning device according to the invention is alleviated by the fact that at least one positioning element, for example of a geometrical shape of the cylinder, is arranged axially displaceable relative to the supports, the positioning element having a pair of stop surfaces arranged axially apart from the chuck. for the front reference surface of the chuck and for the front surface of the outer body, for example, the workpiece.

The axial positioning device according to the invention achieves an increase in the accuracy of positioning of the workpiece in the chuck by the possibility of replacing the positioning elements according to the desired support length, as well as the possibility of their automatic replacement with the carrier without affecting the axial position of the workpiece from the chuck face.

T

The accompanying drawing shows an example of an embodiment of an axial positioning device according to the invention, in which FIG. 1 is a fragmentary cross-sectional view of the chuck periphery, and FIG. 2 is a front view of the positioning device.

The positioning device of the invention comprises a support 10 and at least one positioning element 20 in the form of a support plate 10 is converted assembly of axial seats 12, for example, through-threaded holes into which is inserted, for example, by screwing the shim 11, wherein the through-guide recess ^13, wherein the slidingly mounted positioning element 20 is secured against falling out by the stop 60, for example, of springs by a wire embedded in the insert 11, for example by pressing and fitting into the locking recess 26 of the positioning element 20.

The carrier 10 is further adapted to be gripped by the gripper handling device 52, for example on the circumferentially formed gripping surfaces 22. The aligned carrier 10 is positioned, for example, in a storage location within reach of the handling device 50. 32 of the chuck 30 so that the rear stop surface 23 of the positioning element 20 arrives or will be in close proximity thereto.

The carrier itself JO is relative to the chuck 30 may be positioned, for example, a centering cone, and the chuck 30 together with any standard and preferably, through the chuck stored in the recesses 17 of radial element 22 »as ³ and designed according to the AO 207,151th

In order to protect the chip reference surface 32 of the chuck 30 from machining during machining, it is expedient to insert interchangeable inserts 11 without guiding recesses 13, for example of plastic, into unused axial beds 12. When the outer body 40 of the workpiece 40 is inserted into the chuck in a known manner, for example, its abutment surface 42 is axially pressed against the front abutment surface 24 of the positioning element 20 and axially displaced in the guide recess 13 of the insert 11 by its abutment surface 23 against the front reference surface 32 .

Advantageously, the locking recess 26 of the positioning element 20 is displaced depending on the distance of the carrier 10 from the front reference surface 32 of the chuck 30. After clamping, the axial position of the outer body 40 is secured only by the length of, for example, three positioning elements 20 independently of the axial positioning of the carrier 10.

Advantageously, the front stop surface 24 and the rear stop surface 23 of the positioning element 20 are part of a single ball surface, which eliminates any angular deviations of the axial displacement of the positioning elements 20 relative to the chuck axis, thereby increasing positioning accuracy.

The positioning elements 20 may also be of different lengths, which is determined by the desired position of the workpiece from the front reference surface 32 of the chuck 30. If the stop 60 is springed in a radial direction in a known manner, the positioning element 20 can be easily and quickly replaced. after the second axial extension.

Claims (7)

No. 3,248,923 in its known manner, its abutment surface 42 is axially pushed onto the front stop surface 24 of the positioning element 20 and axially displaced in the guide recess 13 of the insert 11 by its stop surface 23 by the front reference surface 32 of the chuck 30. that is transferred depending on the distance of the carrier 10 from the front reference surface 32 of the chuck 30. The bud is an axial position of the outer body 40 provided only by the length of, for example, three positioning elements 20 independently of the axial positioning of the carrier 10. It is preferred that the front stop surface 24 and the rear stop surface 23 of the positioning element 20 is part of a single spherical surface, which eliminates possible angular deviations of the axial displacement of the positioning elements 20 relative to the chuck axis and thereby increases positioning accuracy. The positioning elements 20 can also be of varying length, which is given by the desired position of the workpiece front face 32 of the chuck 30. In the event that the stop 60 is sprung in a known manner relative to the guide recess 13 in the radial direction, the positioning element 20 can easily be exchanged for a second axial by ejecting. SUBJECT MATTER An axially positioning device, particularly for chucks, comprising a carrier with at least one positioning element disposed between the chuck face and a clamped body, for example a workpiece, characterized in that at least one positioning element (20), e.g. , wherein a pair of abutment surfaces is provided to the axis of the chuck (30) and a pair of abutment surfaces arranged therefrom, 20 from which the rear (23) is for reference! the surface (32) of the chuck (30) and the front (24) for the stop surface (42) of the outer body (40) of, for example, the workpiece. Axially positioning device according to claim 1, characterized in that the positioning element (20) is displaceably mounted in the replaceable insert (11) of the carrier (10). 3. An axially positioning device according to claim 1 or 2, characterized in that the positioning element (20) is displaceable relative to the stop (60). Axially positioning device according to one of claims 1 to 3, characterized in that a set of axial beds (12), for example threaded holes, is provided in the carrier (10) for the insert (11). An axially positioning device according to any one of claims 1 to 3, characterized in that the positioning element (20) is replaceable. 6. Axially positioning device according to claim 1, characterized in that the carrier (10) has radially formed gripping surfaces (15) for the handling device (50) relative to the axis of the chuck (30). An axially positioning device according to claims 1 to 6, characterized in that the rear stop surface (23) and the front stop surface (24) of the positioning element (20) are formed by a ball plane. 1