SU1247170A1 - Arrangement for breaking chips - Google Patents

Description

The invention relates to general engineering and can be used on lathes and drilling and boring groups.

The purpose of the invention is to expand the technological capabilities of the device by adjusting the frequency of the oscillatory movements of the spindle in the axial direction.

FIG. 1 shows the proposed device, obsh, its view, a section along the axis; in fig. 2 - face cam sweep.

The device is mounted on housing 1, which is mounted with its tapered shank to the machine spindle. In the opening of the housing 1 is mounted on a movable fit with a spindle 2 keyed joint. On the spindle 2, an end cam 3 is fixed, and on the rotor 4 brakes - an end cam 5. The brake is made in the form of a vane pump consisting of a rotor 4 in which the plates are installed ( not shown), a stator 6, two disks 7 and 8, and two covers 9 and 10 with suction and pressure cavities 11 and 12. The rotor 4 of the brake is mounted on the housing 1 by means of a spring ring 13, two radial bearings 14 and 15, and one thrust bearing 16. The spring 17 force of the compression is closed on the housing 1 through the shoulder of the rod 18 connected to the spindle 2. The spring 17 is intended to uncoupling cams 3 and 5 in the absence of cutting forces, therefore, its force overcomes only friction forces arising in conjugation of spindle 2 with housing 1. The flaps 19 and 20 prevent contamination of the bearing 16 and the cam pair, respectively. The suction cavity 11 is connected to the injection cavity 12 through the choke 21. The entire interior of the brake (pump) is filled with oil. The device is equipped with a spring-loaded piston 22, compensating for oil leakage. The stator 6 of the brake is connected to the stationary element 24 of the machine by means of the stop or by means of the stop 25 to the screw, the workpiece 26.

The device works as follows.

The device installed, for example, on a drilling machine, is reported to rotate and move in the feed direction. After the cutting tool comes in contact with the workpiece 26, the spindle 2 is pushed into the opening of the body 1, compressing the spring 7, until the cams 3 and 5 are in contact, which corresponds to the start of the cutting process. In this case, the axial cutting force closes on the housing 1.

through the spindle 2, the cams 3 and 5, the rotor 4 and the bearing 16. The moment of friction arising in the cam pair tends to turn the rotor 4 brakes relative to the stator 6. which in this case is associated with the non-mobile element 24 of the machine. At the moment of the cracking in the cam pair, greater than the moment created by the brake (braking moment), normal cutting takes place, since the rotor 4 with cam 5 rotates together with the spindle with cam 3. With

5 increase the braking torque with the help of throttles 21 so much that it turns out to be more than the friction moment in the cam pair, the lag in the rotation of the rotor 4 relative to the spindle 2 starts. Because of the resulting cam slip,

0 relative to the other tool is reported as an additional feed. Thus, a full feed is equal to the sum of the main feed (from the machine feed chain) and an additional one. The cutting process with the total feed is completed at the time of the cam release. After that, the spindle with the tool is moved upwards by the action of the axial cutting force until the cams are in contact, as a result of which the cutting process is interrupted and a new blowout chip cycle begins.

The speed of rotation of the rotor 4, and consequently, the frequency of interruption of the cutting process, is determined by the setting of the throttles 21. The amplitude of oscillations of the tool is adjusted by changing the end face

5 cams 3 and 5.

In the case of machining holes in the lathe group with rotating workpiece 26, the brake stator 6 is associated with the latter. Except that rotation is transmitted by the rotor 4 of the brake by its stator 6, the device operates in the same way as with a rotating tool.

Hydraulic, mechanical friction, electric, induction and other types of brakes can be used as brakes.

five

devices.

FIG. 2

Compiled by G. Barinov

Editor A. OgarTehred I. VeresKorrektor V. But ha

Order 4056/14 Circulation 100 Subscription

VNIIPI USSR State Committee

for inventions and discoveries

113035, Moscow, Zh-35, Raushsk nab. 4/5

Branch PPP "Patent, Uzhgorod, st. Project, 4

Claims (1)

A device for crushing chips, comprising a housing with a spindle axially movable therein, a brake with a rotor part, a cam mechanism for driving vibratory movements of the spindle, comprising two end cams mounted for interoperability, one of which is mounted on the spindle, characterized in that , in order to expand technological capabilities by regulating the frequency of oscillatory movements of the spindle, another end cam is mounted on the rotor part of the brake mounted under in a circular direction relative to the spindle. FIG. 1