SU1373488A1 - Spindle drive for vibration cutting - Google Patents

Description

(21) 4075933 / 31-08

(22) 03/07/86

(46) 02.15.88. Bul No. b

(71) Gomel Polytechnic Institute (72) N.V. Sokolov, I.V. Kobrusev, V.G. Molchanov, M.I. Kaplan and Э. R. Zharekii

(53) 621.952.5 (088.8)

(56) USSR Copyright Certificate No. 602311, cl. B 23 B 47/04, 1974.

(54) SPINDLE DRIVE FOR VIBRATING CUTTING

(57) The invention relates to the field of metal cutting and can be used in drilling and milling machines. The aim of the invention is to provide a smooth control of the frequency and amplitude of oscillation of the cutting tool. The frequency control mechanism consists of a cylindrical flywheel 3 with pushrods 6, a sleeve 7, which is rigidly connected to the flywheel 3. In the sleeve 7, grooves 8 are made, in which fingers 10 are mounted, connected to the washer 9. Washer 9 via rod 11, rod 15 with the cup 14 communicates reciprocatingly from the intermediate gear 2, which is converted into vrasive motion of the sleeve 7 and the flywheel 3. The pushers 6, through the strikers 21, inform the movement of the mechanism for adjusting the amplitude of oscillation, consisting of the anvil 23 on the supports 24, the shaft 25 and a conical pusher 26, which transmits oscillations through the roller 28 to the ball transfer mechanism 31 and to the tool 33 through the clutch 32. 5 ill.

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The invention relates to metal cutting and can be used in drilling and milling machines.

The purpose of the invention is to provide smooth control of the frequency and amplitude of oscillation of the cutting tool.

FIG. 1 shows a spindle drive for vibratory cutting, a cut; in fig. 2 is a section A-A in FIG. one; in fig. 3 - section B-B in FIG. I; on

The underdog consists of a split housing 1, an intermediate gear 2, made in

rigidly fixed on its outer surface along a self-intersecting screw; grooves 8 are oriented with a washer 9 with fingers 10, provided on one side with a rod 11 with a friction coating 12,

flywheel 3.

The rod 11 contacts the cup 14 of the rod 15, which is placed in the sleeve 16 and contacts the brush 11 of the total of 11 shields 9. By moving the sleeves 7 rigidly connected to the flywheel 3 in asymmetric grooves 8, the fingers 10 of the washer 9 transform the reciprocating 5 rotational motion.

During the rotation of the latter, the pushers 6 of the cylindrical flywheel deliver the shock-translational motion to the strikers 21 in the cassette 22, which, in turn, inform the movement of the anvil 23 with the Konifig. 4 - coupling, cut; in fig. 5 - cross-section pusher 26. The oscillatory movement BB in FIG. 4. The cone pusher is transmitted by the role of the spindle drive for the vibrating rek-28 and by means of the ball transmission mechanism 31 to the flange 36 of the floating coupling 32. At the same time, the torsion of the crank-rod mechanism, the torque from the overdrive electric motor 45 frequency control, which is given to the cutting tool 33 through the sleeve - from a cylindrical handwheel 3 on supports 4 and 5. The flywheel 3 is equipped with pushers 6,

A smooth amplitude adjustment is made during the operation of the Shpindhev line drive. Inside the flywheel 3, 20 liters are installed for vibratory cutting through sleeve 7 with asymmetrical grooves 8. displacing upward or downward the conical pusher 26 with the shaft 25, the anvil 23 and the striker block 21 from the contact pressure of the associated ball valve and, on the other hand, by force coupling between - 25 of the transmission mechanism 31 and the roller 28. The spring 13 with the support 5 is cylindrical. Since in the zone of contact of the roller 28 and the conical pusher 26 during the period of long-term operation, wear and possible jamming are established, set the clearance S as Only the whole system, the zun 17 of the crank mechanism, 0, while ensuring trouble-free operation, the sleeve is mounted in the flange 18, that of the cutting tool.

38, cores 39 and balls 40.

Claims (1)

Invention Formula provided with oblique slits 19 in the cylindrical part in which the lever 20 is oriented, rigidly connected to the sleeve 16. In case 1 perpendicular to the axis of the qi-Drive spindle for vibratory relindric flywheel 3, a combat-35 undercuter is mounted, which contains an intermediate gear connected to an electric motor 21 in the cassette 22, and an amplitude control mechanism connected with the motor of the anvil 23 on the supports 24. On-the-otot and oscillation amplitudes of the cutting incal 23 are rigidly connected to the shaft 25 and the structure, characterized in that With a pusher 26, which, with its horse, ensuring smooth adjustment with a frequency surface 27, interacts with the oscillation amplitudes, the mechanism with a regurolic 28, and the front 29 with a cam 30. The roller 28 is kinematically connected with a ball transmission mechanism 31 and the oscillation frequency plating is made in the form of a cylindrical flywheel, supports for placing the latter, pushers rigidly fixed on the outer surface of the flywheel 32 with the cutting tool along the self-intersecting helical cast 33. Floating coupling 32 is mounted on the shaft 34 of the machine spindle in the form of two flanges 35 and 36, between them is mounted the cutting tool 33 on the tongs 37. The flange 36 is kinematically connected with the sleeve 38 the shaft by means of cores 39, balls 40 and 50 with inclined grooves made at an angle to the springs 41. The flanges are fastened with a nut 42 through its axes located inside the sleeve of a pernia, cassettes with sockets, strikers installed in the latter perpendicular to the axis of the flywheel with the possibility of interactions with pushrods, fixed concentric flywheel liner with asymmetric radial bearing 43. The drive works as follows. Through an autonomous electric motor 44 with a crank-schatunny mechanism 2 the slider 17 of the slide 17 communicates the translational movement of the rod 15 with the glass 14, which transmits the axial movement of the rod 55 The pinot rio of its axis washers fixed in the last rod and two fingers mounted for movement in the grooves of the sleeve positioned for contact with the core of the glass rigidly connected with the latter, the rod intended to interact with the projection of the electric motor 45 gives the cutting tool 38, cores 39 and balls 40. Invention Formula The oscillation frequency is made in the form of a cylindrical flywheel, supports for placing the latter, pushers rigidly mounted on the outer surface of the flywheel along a self-intersecting screw livik along self-intersecting helical lyric grooves, made at an angle to its axis located inside the Pernia sleeve, cassettes with sockets, installed in the latter perpendicular to the axis of the flywheel with the ability to move and interact with the pushers fixed to the concentric flywheel of the liner with asymmetric Peniku rio its axis washers fixed in the last rod and two fingers mounted for movement in the grooves of the sleeve placed with the possibility of contact with the core of the glass rigidly connected with the latter, the rod intended to interact with the intermediate gear and covering the sleeve of the sleeve installed rotatably and axially displaced, and the oscillation amplitude adjustment mechanism is made in the form of a spring-loaded anvil mounted with the possibility of interacting with said strikers rigidly connected with the anvil of the shaft and the additional conical pusher installed with the possibility of interaction with the mechanical conical surfaces of the latter, respectively, of the cam and roller, designed to interact with the ball transmission mechanism, and connected with the last coupling connected with the cutting tool. 5V 41