CS244997B1 - Shift mechanism of precision watchmaker lathes - Google Patents

Abstract

The quill feed mechanism of precision watchmaking lathes is designed for very fine quill feed, which is required for turning work, or fine grinding and polishing work on precision watchmaking or precision mechanical lathes. The essence of the quill feed mechanism of precision watchmaking lathes is that the nut latch, controlled for feed by a precision screw, fits into the circular groove of the quill, while the nut latch is secured against rotation and guided by a retractable rod. The quill feed mechanism can be used in the production of precision watchmaking or precision mechanical lathes.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a mechanism for shifting the quill of precision clockwork lathes in which the quill is displaced by a nut latch driving the quill through the annular groove while rotating the precision bolt, the nut latch being guided on the pull rod.

Until now, the gearwheel gear transmission is used for precision quill shafts and its feed is effected by rotating the gearwheel which has a straight toothed ratchet. With such a transfer, precise, smooth and gentle feed cannot be achieved. The toothed rack is also an obstacle to the accurate positioning and guiding of the quill and, moreover, the transmission is a passive resistance when cutting fine threaded threads.

The above mentioned drawbacks are eliminated by the shifting mechanism of the precision watchmaker's lathe according to the invention, the principle of which is that the nut latch actuated by the precision bolt fits into the groove groove, the nut latch being guided by the pull-out rod.

By controlling the shifting of the quill by means of a precision screw through the nut latch with the guide on the telescopic rod, the finest shifts of the quill are achieved by applying the highest sensitivity from the operator. As the mechanism allows, according to the type of work, the quick disconnection of the mechanical connection of the nut latch to the quill, this possibility avoids greater passive resistances. For example, when thread cutting fine thread.

In the accompanying drawings, an exemplary embodiment of the shifting mechanism of a precision clockwork lathe is shown, wherein in Fig. 1 a mechanism is shown in front and in cross-section, in Fig. 2 in a left side view and in Fig. 3 in right side view. In the tailstock 6, a sleeve 4 is arranged in the bearings 7, which is secured against rotation by a tongue 8. The precision screw 2 is rotatably supported in the tailstock opening 6, in which axially dome is defined by means of friction rings 9, 10 and an insert 11 which Precision screw 2 for manual rotation is provided with a wheel 13 with locking screws 14. In a further hole of tailstock 6, a pull-out rod S is inserted, which is secured by a screw 15 against an undesirable displacement. a nut pawl 1 is screwed from which the feed is transferred to the quill 4 by engaging the annular groove 3. The quill 4 can be fixed in the set position by means of a fixing screw 16, because the tailstock 6 and the plain bearings 7 are at the position of the fixing screw 18 parts cut to provide a flexible connection. Lubrication of the quill 4 is carried out through the nipple 17.

As the precision screw 2 is rotated by the wheel 13, the nut latch 1 moves with which the sleeve 4 moves as well as it is driven by the annular groove 3. In this function, the anti-rotation nut 1 is locked by the extendable rod 5. 4 in a sliding bearing 7 by means of a fixing screw 16. In such cases, on a precision watch lathe, when mechanical connection of the quill 4 with the precision screw 2 is not required, the sliding screw 5 is removed from the aperture 6 and the aperture of the nut latch 1, according to which FIG. 2 shows the rotation of the nut pawl 1 around the precision screw 2 and further the pivot of the nut pawl 1 from the circular groove 3. Thus, the pawl 4 becomes free, without connection with the exact screw 2. This disconnection is very quick and simple. Mainly required for cutting very fine threads with a threaded eye, with fine grinding and polishing, and with a quick change of the sleeve 4 to a dedicated pinch, which can be a rotary tip, a tip and, in all cases, only manual control of the quill 4 is required. When the quill 4 is released, it is devoid of unwanted passive resistances, so it can be controlled with great sensitivity, which is especially required for fine 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)