SU997989A1 - Spindle assembly for tangential vibrations - Google Patents

Description

The invention relates to a machine tool industry and can be used in machine tools for machining with vibrations.

A spindle node for tangential vibrations is known, containing a rack, a spindle and dikes mounted on a housing, kinematically interconnected by fingers through an additional disk, mounted in a rack an eccentric axis of a spindle 1.

A disadvantage of the known spindle assembly is the inability to change the vibration parameters, which reduces the technological capabilities of the assembly.

The aim of the invention is to improve the technological capabilities of the spindle assembly by changing the parameters of the vibrations.

The goal is achieved by the fact that the rack is installed with the possibility of movement by the amount of eccentricity of the additional disk from the drive additionally inserted into the spindle unit.

Figure 1 shows the spindle assembly; figure 2 - section aa in figure 1; on fig.Z - view B in figure 1.

The node consists of a velocity box (not shown), spindle 1, stand 2, body 3, and two sector disks 4 and 5 mounted coaxially with spindle 1. Sector-disk 4 is rigidly connected with pulley b and is water- || The p1p disk 5 is rigidly connected to the spindle 1. Both disks 4 and 5 are kinematically connected with each other by means of 10 fingers 7 with stones 8 mounted on them, mounted on an additional disk 9 and interacting radial grooves of the discsectors 4 and 5. Additional disk

15 9 on the rolling bearing 10 is rotatably mounted in a rack 2, which has the possibility of linear movement relative to the housing 3 by an amount equal to the eccentric size of the disk 9 disk. The stand 2 by means of the transfer screw 10 is the nut 11 connected to the housing 3.

The spindle assembly for tangential vibrations operates in the following 25 ways.

From the electric motor, the pulley 6 and the disk sector 4 rigidly connected to it are driven through the belt transmission. As a result, the interaction of the radial groove

the disk 4 with the additional groove of the disk sector 5, the latter receives rotation with tangential vibrations, which, due to the rigid connection of the disk 5 with the spindle, are transmitted to the spindle 1. If the mutual position of the center of the additional disk 9 relative to the spindle axis remains unchanged, is changing. The position of the disk 9 shown in Fig. 1, at which its center is located at a distance from the spindle axis, corresponds to the maximum amplitude of the spindle tangential vibrations. If, by means of transmission 10 and 11, mix the axis of the disk 9 along a line perpendicular to the spindle axis in the direction of the latter, the amplitude of the vibrations will decrease and reach zero when the axes of the disk 9 of spindle 1 coincide.

The use of the invention allows to intensify the cutting process due to the optimal choice of vibration parameters.

Claims (1)

1. USSR author's certificate in application number 3217527 / 25-08, Vol. B 23 B 25/02, 1980. W / BS