DE553579C - Stop to limit the cross feed movement of oscillating and also longitudinally movable tool carriers on automatic swivel arms - Google Patents

Description

Stop to limit the cross feed movement of oscillating and also longitudinally movable tool carriers on automatic lathes to achieve exact turning diameter on lathes, especially automatic lathes stops that are as rigid as possible to limit the feed movement of the tool carriers required, which must also be protected against chips, so that not between Chips can get into the stop surfaces, which affect the turning diameter. These requirements are also longitudinally displaceable in the case of oscillating and, if necessary, at the same time Steel holders are difficult to fulfill in contrast to anchor devices for limiting the feed in the case of tool slides moving in a straight line, which usually only move in one Run direction.

You have been met according to the invention in that the limit stop is guided and taken along in such a way that it increases the longitudinal movement of the tool carrier participate yourself. Now it is possible to equip it in a manner known per se so that that the penetration of chips between the stop surfaces no longer occur can, over the entire path area, which as a result of the longitudinal defeat of the tool carrier comes into consideration.

An exemplary embodiment of the subject matter of the invention is shown in the drawing. FIG. I is a vertical axial section, FIG. 2 is a section along line AB in FIG. I, FIG. 3 is a section along line CD in FIG. Fig. Q. is a section along line E'-F of FIG. 3. A lathe is shown with three swingable tool carriers a, b, c, of which one, namely a, is also intended to be longitudinal, while the tool carriers b and c are only perform a swinging motion. The training according to the invention is only drawn for the longitudinally movable tool carrier. It consists of my rod, which is guided parallel to the spindle axis and carries a sleeve in which the stop bolt is guided so that it can be moved lengthways. This stop bolt is based on a springg housed in the sleeve e, so it also acts as a spring bolt, is in constant contact with the arm 'of the tool carrier and is thereby made usable at the same time for swinging the tool carrier back. An appropriately adjustable stop h is assigned to its rear end face.

On the rod d, an arm i is also attached, which in the same The ring groove k of the longitudinally displaceable oscillating shaft m of the tool carrier a engages like the lever tt, which depends on the jacket curve o the longitudinal displacement that brings forth wellem.

To achieve this, the shaft is m by means of a spring wedge p or the like connected to a toothed segment g which meshes with a toothed segment r, which the latter is swung @ correspondingly from a cam disk. The constant The system causes the guide roller of the tooth segment Y against the cam disk s in the Sleeve e guided stop bolts influenced by spring g f.

It is readily apparent that the point at which the oscillating movement of the tool carrier is limited by a stop, namely by stopping the rear End face of the bolt f against the adjustable stop h, although their position in, space according to the longitudinal displacement of the tool carrier a changes, always is protected against the ingress of chips, dirt or the like.

The device is of course also suitable for cone turning. It is known for taper turning sideways of the longitudinally movable carriage to the axis of the workpiece inclined adjustable guide surface to be arranged to the on the longitudinal slide to give the cross slide in bearings the transverse displacement necessary for taper turning.

In the present case, the transverse displacement of the tool carrier is generated by a corresponding slope of the cam s on the part 'during taper turning, while to limit the stop - by each dead; Disengage the gear from the drive elements and obtain an exact cone of rotation - the guide of the rod d is placed at an angle accordingly. For this purpose, as shown in FIG. 4, the hole u for one of the two fastening screws of the guide sleeve t can be made correspondingly long. The point of the tool carrier cd, with which the stop bolt / is kept in constant contact, is expediently countersunk in the shape of a spherical electrical shell. Such a depression can optionally be used to drive the guide sleeve e and the rod d so that the arm i can be dispensed with.

Claims (1)

PATENT CLAIMS: i. Stop for limiting the cross feed movement of oscillating and also longitudinally movable tool carriers on automatic lathes, characterized in that the stop takes part in the longitudinal movements of the tool carrier. a. Stop according to claim i, characterized in that the stop is carried along by an arm (i) which engages in the same annular groove (h) which is used to bring about the longitudinal movement of the tool carrier (a). 3. Stop according to claim i and z, characterized in that the stop is designed in a known white as a chip-protected spring bolt with an inner stop for the swinging back of the tool carrier. 4. Stop according to claim i, characterized in that, for rotating conical surfaces, the guide (t) for the stop can be adjusted obliquely to the axis of rotation.