SU281136A1 - - Google Patents

Description

Working rotors are known for multi-operative machining of workpieces, comprising a spindle unit with a rotational drive and a tool unit with a cam drive for reciprocating and reciprocating.

In the proposed device, in order to simplify the kinematic scheme and reduce the size of the structure, the tool block is installed coaxially with the spindle block and is made periodically coupled to the last bearing guide bushings, which include reinforced columns on the tool block for joint movement of the blocks during processing .

FIG. 1 shows the proposed working rotor (longitudinal section); in fig. 2 and 3, respectively, the beginning and end of the idle turn of the tool block.

On the frame 1 (see Fig. 1), the spindle 2 and the instrumental 5 blocks are mounted, coaxially located on the central shaft 4. On the hub 5 of the block 3, sector 6 is fixed with a radial ball bearing 7 and roller 5. Through the hook 9, the thrust bearing 10, axial motion sleeve 11, carrier axis 12 and radial ball bearing 13, unit 3 is kinematically connected to cam device 14. The latter consists of drive sprocket 15, 16, cam 17

axial movement and cam 18 rotation. On block 3, four instrument holders 19 and two columns 20 are strengthened. In spindle block 2, the columns are strictly coaxially

20, six guide bushings 21 are pressed in. In the upper part of the rotor, incisal blocks 22 are mounted.

The rotor operates as follows.

A rotation gear is transmitted to the central shaft via a gear system with a gear ratio of 6: 1 from the cam device 14. Thus, for six turns of the cam device 14, the spindle unit 2 will make one revolution. During this time, block 3 six times

closes and opens with spindle unit 2. In accordance with the number of cutting tools installed in the holders 19 of block 3, an operational processing of workpieces installed in the collet

devices of the spindle unit 2. The cam groove 17 is profiled so that in one turn of the device 14 there is a quick descent, shutter speed in position, a quick rise and a working stroke of the unit 3. At the end of the quick

the descent of the column 20 exits the guide bushes 21, and the tool unit 3 opens with the spindle unit 2.

com 7 and roller 8. In this case, the latter provides a rigid circuit system. The rotation occurs towards the continuously rotating spindle unit 2 until the axes of the columns 20 coincide with the axes of the next pair of guide sleeves 21. At this time, the block 18 is quickly raised by means of the cam 18. The columns 20 enter the guide sleeves 21 , and the block 5 interlocks with the block 2, starting a working turn, during which the workpiece is machined with tools secured in the holders 19.

Thus, in one turn of the cam device 14, i.e. in one cycle of operation, the tool unit 3 performs a reciprocating and reciprocating rotational movements, thus achieving a change in position of the tool holders 19 relative to the spindle unit 2 and machining the blanks

during the joint movement of spindle 2 and instrumental 3 blocks.

Subject invention

A rotor for multi-operation machining, on the frame of which mount the spindle unit with a rotation drive and the tool block with a cam drive for reciprocating and reciprocating rotational movements, characterized in that, in order to simplify the kinematic scheme and reduce the rotor dimensions, the tool block is installed coaxially with the shnindelny block and made periodically interlocked with the latter, carrying guide sleeves, which include columns mounted on the tool block for concomitantly motion blocks in

processing time.