SU467789A1 - Lathe Caliper Drive - Google Patents

Description

The invention will find application in machine tools. Caliper drives are known in which screw-nut transmission is used as a link of the drive kinematic chain to a rolling drive or hydrostatic transmission of a screw-nut. Other feed drives are known that are used in lathes, for example, in longitudinal current machines, the drive of the working Bodies is driven by adjustable cams attached to the camshaft. The purpose of the invention is to increase the rigidity of the drive and to increase the speed of the fast movements. This is achieved by the fact that the final aveno of the drive of the working feed is made in the form of two non-replaceable cams of the same type fixed on the output shaft of the drive. A pusher with which the caliper is equipped rests against one of the cams, and c. the other is a brake spool plunger, which is mounted on a caliper and controls the hydraulic cylinder, which serves for the rapid movement of the caliper. FIG. 1 shows the proposed feed drive} in FIG. 2 is a diagram of the interaction of the VIA caliper with cams. The proposed drive for turning lathes consists of a working feed drive chain, in which a shagovyi electric hydraulic drive (electric motor -1, worm gear 2, shaft 3, cam 4, pusher 5 with roller b) and from the drive chain of fast movements enters. This chain contains a hydraulic cylinder 7 with a brush 8, a brake valve 9 with a plunger 1O, at the end of which roller 11 is fixed, and a fist 12. On a slide 13, which moves along the guides, the pusher 5, the hydraulic cylinder 7 and the brake slide 9 are fixed. Rod 8 hydraulic cylinder 7 is fixed on the frame. The profiles of the curves of the fists 4 and 12 are the same and are made on an archimedes spiral. Both fists 4 and 12 zhes1% are fixed on the shaft 3. Kzhyutrukngvno AonjrcTHMa replacing two fist (w one lvrvvvm. Caliper 13 finds in the original train (fig, 1 in the uppermost position). touches the cam 4. With the MCTHtri iiygTViRQPp PJV 1 through a worm gear. 2n shaft 3 fist 4 ps oracle to one or another cropotiy and takes a given angular position. Stepper drive 1 stops. By means of the hydraulic cylinder 7, the slide 13 is quickly mixed to fist 4 (fig 1 down). Before roller 6 pusher 5 touches fist 4 pro the fist 12c comes in contact with the roller 11 fixed on the plunger 10 of the brake spool 9, the magnitude of this advance t nactpaH is determined by the size of the displacement track 13. On the way |, there is a halt of supnqpTa 13 and unstressed touch of the roller 6 with the fist 4. Then when the cam 4 is rotated from the stepper drive 1, the working feed occurs. During the operating feed of the valz with the cam 4 and 12, it can be rotated in one direction or reversed. After the end of the working feed, the stepper actuator 1 stops and the caliper 13 by the hydraulic cylinder 7 is retracted into the initial half of the shaft. In parallel with the removal of the slide 13 by the stepper drive G, the shaft 3 is rotated until the fist 4 of ilcHcea occupies the given angular position; the Snezha is quickly bringing in the soup of port 13 with braking at the end of the turn before meeting the roller 6 s, fist 4, etc. Subject of the invention: Lathe drive, for example, with a programmed control that contains stepper or any other drive; working feed and quick movement mechanism, characterized in that, in order to increase the drive durability and speed of the fast displacement, the final drive link of the working feed; CHANGED in the form of two non-replaceable cam, & the same profile rigidly fixed on the output wedge drive; in one of; The cam pushes the caliper and another piston brake; the spool valve, KOrdpbuSr y KpenifieH, rests on the sup Iport and controls the hydraulic cylinder, which serves for quick movement of the caliper.