SU519316A1 - Device for communicating oscillating movement to a machine table - Google Patents

Description

The device includes an eccentric HHSiM mechanism for adjusting the length of the table travel, made in the form of a stepless adjustable eccentric, which includes an inner 1 and an outer 2 eccentric placed on the lead screw 3 (Fig. 1).

The double-shouldered lever 4 is in constant contact with the external eccentric 2 and the machine table 7 by means of the rollers 5 and 6, for which the device is equipped with a hydraulic cylinder 8, the piston 9 of which is rigidly connected with the table 7.

The axis of the Kacha1 and the double-arm lever 4 is mounted on a pivot about the axis of rotation of the lead screw 3, casing 1 of the mechanism for adjusting the center of oscillation of the table.

The casing 11 is set in motion from the cam 12 by means of a worm gear 13. The lead screw 3 is mounted on supports in the fixed casing 14 of the device.

The rotation of the spindle 3 is carried out from a continuously variable adjustable drive (not shown) by means of a V-belt transmission, the pulley 15 of which is mounted on the external gear gear 17, which interacts with the spindle 3 via a key 18, by means of a clamping sleeve 16.

The inner eccentric 1 is mounted on the non-braking thread of the lead screw 3 and is fixed axially on one side through the intermediate flange 19, the ball bearing 20 and the spacer sleeve 21, and on the other hand through the intermediate flange 22, the ball bearing 23 and the gear wheel 17. Intermediate flanges 19 and 22 are fixed on the swiveling casing 11 and mounted with the help of ball bearings 24 and 25 in the supporting flanges 26 and 27 fixed to the fixed casing 14 of the device. An external eccentric 2 mounted on the internal eccentric 1 is rotated by a gear wheel 17, which is located and zatlelepi; with notched gear 28, fixedly mounted on an eccentric eccentric 2.

The lead screw 3 has the possibility of axial mixing due to the installation in the centers 29 and 30 that are movable in the axial direction. They are made in the form of pistons of hydraulic cylinders 31 and 32 of different diameters with a common drive.

The oscillation amplitude of the table 7 is controlled by changing the mutual angular position of eccentrics I and 2, which are set with the same eccentricity relative to the running 3. In this connection, the total eccentricity is adjusted from zero to a maximum equal to the sum of eccentricity of two eccentrics 1 and 2.

The overall eccentricity is controlled by axial movement of the lead screw 3 to the left of the wheel, the action of the center-piston 30 on the final polol of the center-hole 29 sets the total eccentricity equal to zero. When the movement of the running innta 3 to the right under the action of the center of the piston 29 to

the final position of the center-piston 30 is set to the required eccentricity.

In this case, the inner eccentric 1 rotates on the lead screw 3 at an angle corresponding to the stroke of the screw, and the gear wheel 17, which is in constant engagement with the gear ring 28, keeps the outer eccentric 2 from turning.

The magnitude of the axial movement of the lead screw 3 is adjusted by changing the axial position of the hydraulic cylinder 32, made in the form of a set screw.

The oscillation center of the table is adjusted by turning the casing 11 relative to the axis of the lead screw 3 with the help of a rotary cam 12 from the worm gear 13. This changes the spatial position of the swing axis of the two-arm lever 4 fixed to the casing 11. The amplitude and center of the table oscillation is controlled stepless in the process of the machine.

Adjusting the number of double strokes of the table per minute is possible with the help of an infinitely adjustable drive of rotation of the lead screw 3.

Claims (5)

1. A device for communicating an oscillating movement of a table of a machine, for example a grinding machine, including an eccentric mechanism for adjusting the length of the table stroke and a mechanism for adjusting the center of the table oscillation, characterized in that, in order to adjust the amplitude and center of oscillation of the table during processing, the eccentric length adjustment mechanism the course of the table is made in the form of a freely adjustable rotary eccentric interacting with the table by means of being in close contact with the eccentric on the table a two-arm lever with a temporary swing center, the double-arm lever of the mouth 10 incorporated in a casing of the mechanism for adjusting the center of oscillation of the table, driven by a rotary cam, relative to the eccentric axis of rotation. 2. A device according to Claim 1, characterized in that, in order to ensure constant contact of the two-armed lever with the infinitely adjustable eccentric on the table, it is equipped with a hydraulic cylinder, which is rigidly connected to the table. 3. Device but np. 1 n 2, distinguished by that, in order to increase the reliability of the eccentric mechanism of a regular length of the table, it is unstuckedly regular, my eccentric is made of two eccentrics, one another another, and the eccentric mounted on it is connected kinematically through a gear wheel rotation of a steplessly adjustable eccentric, while the inner eccentric is made not axially axially mounted on a non-braking thread of the rolling 3 axial direction of the zint, resulting in This rotation is from the cogwheel. 4. The device according to PP. 1-3, characterized in that. For the purpose of smooth operation of the eccentric mechanism for adjusting the stroke of the table, the lead screw is mounted in axially movable centers made in the form of hydraulic cylinder pistons of different diameters with a common drive. 5. The device according to PP. 1-4, characterized by that, in order to adjust the final position of one of the centers, the body of the hydraulic cylinder of this center is designed as a set screw.  L lZZZZZ222.l 3 11 P 23 5 Z2 21