CS244997B1 - Shift mechanism of loose headstock tip in clock lathe - Google Patents

Abstract

The mechanism of shifting precision quill watches lathes is designed for very gentle shifting of the quill required at turning works, possibly fine grinding and polishing work on precision watchmaking, eventually fine mechanical lathes. The nature of the quill mechanism of precision watchmaker lathes in that the matrix latch operated for feed with precision screw, fits into circular the groove groove, with the nut latch anti-rotation is secured and guided by the pull-out rod. Shaft feed mechanism can be used in the manufacture of precision watchmaking, eventually fine mechanical lathes.

Description

The lathe turning machines are designed for the very fine movement of quill, which is required for turning work, eventually fine grinding and polishing work on precision watchmaking or fine mechanical lathes. The essence of the quill mechanism of precision watchmaker's lathes is that the nut latch actuated for precision screw feed fits into the circular quill groove, the nut latch being secured and guided by the withdrawable rod. The quill displacement mechanism can be used in the production of precision watchmaking or fine-mechanical lathes.

Ob244997

The invention relates to a quill mechanism for precision watchmaking lathes, in which the quill is displaced by means of a nut latch which carries the quill through a circular groove while the precision screw is rotated, the nut latch against rotation being guided on the slide bar.

Up to now, they have been used in precision watchmaking lathes for the movement of the quill by mechanisms representing a toothed rack transmission and its movement is effected by rotating a toothed wheel having a direct engagement with the toothed rack. By such a conversion it is not possible to achieve an accurate, smooth and fine feed. The toothed rod is also an obstacle to the precise fit and guidance of the quill and, moreover, the transmission is a passive resistance when cutting fine threaded threaded eyes.

These drawbacks are overcome by the quill mechanism of the precision watchmaker's lathes according to the invention, which is characterized in that the nut latch actuated for precise screw feed fits into the quill groove, the nut latch against rotation being guided by the slide bar.

By controlling the quill feed by means of a precision screw through the nut latch with the guide on the pull-out bar, the finest quill feeds are achieved with the greatest feeling from the operator. Since the mechanism allows for quick release of the mechanical connection of the nut latch to the quill according to the type of work, this option eliminates larger passive resistances. For example, when cutting a fine thread with a threaded loop.

The accompanying drawings show an exemplary embodiment of the quill mechanism of precision watchmaker's lathes, where FIG. 1 is a front and cross-sectional view of the mechanism; FIG. 2 in a left side elevation and in FIG. 3 in a right side view.

In the tailstock 6, a quill 4 is slidably mounted in the sliding bearings 7, which is secured against rotation by a tongue 8. The exact screw 2 is rotatably mounted in the tailstock opening 6, in which they are delimited axially by the friction rings 9, 10 and The set screw 12 is locked with the adjusting screw 12. The precision screw 2 for manual rotation is provided with a wheel 13 with locking screws

14. In the next opening of the tailstock 6 is a sliding rod S, which is secured by a screw against undesirable displacement.

15. A nut pawl 1 is screwed onto the precision screw 2, from which the feed is transmitted to the quill 4 by engaging the annular groove 3. The quill 4 can be fixed in position by means of the fixing screw 16, because the tailstock is located at the fixing screw 18 6 and sliding bearings 7 partially cut to provide a resilient connection. The lubrication of the quill 4 is carried out via a lubricator 17.

When the precision screw 2 is turned by the wheel 13, the nut pawl 1 is moved, with which the quill 4 also moves, as it is carried by the circular groove 3. In this function, the nut pawl 1 is secured against rotation by the slide bar 5. 4 in the case of working on a precision clock turning machine, when the mechanical connection of the quill 4 with the exact screw 2 is not required, the withdrawal screw 5 is removed from the hole 6 and from the hole of the nut latch 1, thereby Fig. 2, rotating the nut pawl 1 around the precision screw 2 and further folding the nut pawl 1 out of the circular groove 3. Thus, the quill 4 becomes free, without connection to the exact screw 2. This disconnection is very quick and simple. It is required mainly for cutting very fine threads with a threaded eye, for fine grinding and polishing, for a quick replacement of the quill 4 with a dedicated quill, which may be a swivel tip, a tip or in all cases where only manual operation of the quill 4 is required. When loosening the quill 4, it is free of undesired passive resistances and can therefore be operated with great sensitivity, which is required in particular for delicate work.

Claims (2)

SUBJECT The mechanism of the quill displacement mechanism of a precision watchmaker's lathe, characterized in that the quill (4) is provided with a circular groove (3), which fits the inventive nut latch (1) screwed on the precision screw (2), the nut latch (1) ) is slidingly mounted on the rod (5)