SU460983A2 - Mechanism for discrete transmission - Google Patents

Description

one

The invention relates to metal cutting and can be used in power heads for deep drilling.

The known mechanism for filing by ed. St. No. 450696, containing two alternately activated clamping elements controlled by vibrators, one of the clamps being stationary and the other moving in the axial direction.

The aim of the invention is to increase the reliability of the mechanism.

To do this, it is provided with an inertial mass placed in the form of a pair of disc-shaped washers connected by a split sleeve located in their axial holes.

The invention is illustrated in the drawings.

FIG. 1 shows the construction of the mechanism; in fig. 2 - knot with disc washers; in fig. 3 - the operation of the clips is explained.

The mechanism for discrete feeding includes a housing I, in which a spindle 3 is mounted in bearings 2, in the axial channel 4 of which there is a drill 5 fixed by an elastic clamp 6, 7. Inertial mass 8 is located between the clips 6, 7. Clamps 6, 7 contain elastic dish-shaped washers 9 (see Fig. 2) and split sleeves 10. Clamp 1 by means of a ring 11 and a pin 12 of the st

with the core 13 of the solenoid electromagnetic vibrator, the coil 14 of which is installed in the housing 1 of the head and is powered by alternating current.

The rotation of the spindle 2 is communicated by means of the shim 15 of the V-belt transmission. A spindle 3 is mounted on the cone of the spindle 3. The rotary clamp 16. The drill 5 is spring-loaded in the direction opposite to the direction of the subcap supported on the sleeve 17 with the retainer spring 18.

The ring 11 is installed using a spring 19.

The sizes of clamps 6 and 7 are chosen so that when the vibrator is turned off both clamps are closed (see Fig. 3, a), and when the vibrator is turned on, at least one of the clamps is closed. When current is supplied to the vibrator coil 14, the ring II moves in the direction opposite to the feed direction with the speed UV. Clamp 7 opens up due to the lagging phase of the inertial mass 8 from the oscillation of ring 11 (see Fig. 3.6).

Under the action of elastic forces in the clamps 6 and 7, and then under the action of inertial forces, the mass 8 moves with the speed of Um. In this case, the clamp 7 is closed and it opens to 6 (see Fig. 3, c). The decrease in current in the coil 14 causes the ring 11 to move by the spring 19 in the feed direction along with the drill 5 held by the clamp 7 (see Fig. 3, d). When the current of the solenoid is reduced to zero, the ring 11 returns to its original position. Moving by inertia, mass 8 closes clip 6. The system returns to the initial state (see Fig. 3a). As the solenoid feed current increases, the cycle repeats.

The oscillation frequency of the system is elastic clamps — the inertial mass is selected taking into account the operating frequency of the vibrator and the parameters of the treatment process.

By varying the frequency of vibrations, it is possible to perform intermittent cutting with a given time, either standing or continuous cutting. The switching of the clamps occurs during the cutting process.

As the current flowing through the coil 14 increases, the clamps 6 and 7 simultaneously open and the drill 5 returns to its original position under the action of the spring 18.

The elastic design of the clamps reduces the effect of wear and drill errors on the feed rate. In order to expand the technological capabilities of the mechanism, the split sleeves 10 are replaceable,

which makes it possible to change the machining diameter. The stiffness of the sleeve 10 is chosen such that the friction forces between it and the drill slightly exceed the cutting forces. As the cutting forces increase, the drill slips and the feed stops.

In order to prevent chips from falling into the clamps, to increase the cooling efficiency and to quench the system’s oscillations, the elastic clamps — inertial mass of the axial channel 4 is filled with coolant supplied by the rotating nipple 16. From the channel 4 the coolant enters the hole in the part 20.

Subject invention

The mechanism for discrete filing auth. St. No. 450696, characterized in that, in order to increase the reliability of the mechanism, it is provided with an inertial mass placed between the clamping elements, each of which is made in the form of pairwise installed dish-shaped outer washers connected by a split sleeve located in their axial holes.