SU653041A1 - Spindle drive for vibration-influenced cutting - Google Patents

Description

(54) SPINDLE DRIVE FOR VIBRATING CUTTING

%

The invention loses mechanical engineering and can be used in machine tools.

Spindle drives for vibratory cutting are known, including an electric motor, an intermediate gear mounted on a shaft, and a hydraulic booster, in the housing of which a spring-loaded spool is placed, contacting the lean cam 1.

However, in such a device, the tool receives only axial oscillations with respect to the rotating workpiece, i.e. It does not allow the intensification of the cutting process, which is accompanied by an uneven relative speed of movement of the tool and the workpiece.

The purpose of the invention is to intensify the cutting process.

This is achieved by the fact that the drive is equipped with an eccentric mechanism, the connecting rod of which is rigidly connected to the hydraulic booster housing, and the eccentric is mounted so that it can move on the intermediate gear shaft.

The figure shows schematically the proposed spindle drive for vibratory cutting.

The spindle drive for vibratory cutting comprises an electric motor 1, a clutch 2, a belt drive 3, a spindle 4, interchangeable wheels 5,

splined shaft 6, on which the adjustable eccentric 7 of the eccentric mechanism is movably mounted, the connecting rod 8 of which is rigidly connected to the hydraulic booster housing 9 containing the spool 10 and the piston 11. The axial cutting tool 12 is rigidly connected to the latter. The spool 10 interacts with a fixed cam by means of a spring 13 14 interlocking curvature.

The drive works as follows.

Rotation from electric motor 1 through clutch 2, belt drive

3 is transmitted to the spindle 4 and through the interchangeable wheels 5 to the splined shaft 6. An adjustable eccentric 7 is movably mounted on it, which, rotating, causes the oscillating movement of the connecting rod 8 rigidly connected to the housing 9 located in angular contact bearings to impose the most torsional vibrations of the axial cutting tool

12, which is fixed in the piston 11. The latter, by means of a splined joint, have axial movements in the housing 9 of the hydraulic booster. Having performed torsional vibrations around the axis, the valve 10, interacting with the help of a spring 13 with an immovable cam of variable curvature 14, it performs axial vibrations that are transmitted from the hydraulic booster to the cutting tool 12. Moreover, the axial and torsional vibrations are strictly synchronous. In order to regroup the amplitude of the torsional vibrations, the eccentric 7 is adjustable. To smoothly adjust the amplitude of the axial oscillations, the cam 14, with which the spool 10 interacts, is made with a variable curvature. By returning the cam by a certain angle by changing the curvature of the surface of the interaction between the cam and the valve, and, consequently, we change the amplitude of the axial oscillations. The oscillation frequency of the tool is controlled by interchangeable wheels 5.

Claims (1)

4 Due to the rigid kinematic connection, the spindle speed and tool frequency will be synchronous. The invention provides a spindle drive for vibratory cutting, including an electric motor, an intermediate gear mounted on the shaft, and a hydraulic booster, in the housing of which a spring-loaded spool is placed, which is in contact with the cam, which in order to intensify the cutting process, the drive is equipped with an eccentric mechanism, which has a rigid rod connected to the body of the hydraulic booster, and the eccentric is mounted for movement on the shaft of the intermediate gear. Sources of information taken into account during the examination 1. Poduraev V.N. Cutting with vibrations. M., Mashinostroenie, 1970, p.306, fig. 101.