SU1337203A1 - Device for kinematic disintegration of chips on multispindle machine - Google Patents

Abstract

The invention relates to the field of machine tools, in particular to devices for kinematic crushing of chips, and can be used on multi-spindle lathe and drilling groups. The aim of the invention is to expand the technological capabilities by adjusting each toolholder to a predetermined chip breaking mode. In the housing 1 on the shaft 3, an inclined washer 5 is installed, which is with a pulse generator in the impulse transmission systems of the toolholder. The washer 5 is installed with the possibility of rotation around its axis. To adjust the amplitude of vibrations of each toolholder, it is necessary to loosen the corresponding nut 20 and, by moving the biscuit 17 in the groove 18 of the cover 19, to set the required amplitude value. 2 Il. S (L 5 th 30 I 77 W / 25

Description

one

The invention relates to a machine tool industry, in particular to devices for kinematic crushing of chips, and can be used on multi-spindle lathes and drill bits.

The aim of the invention is to expand the technological capabilities by adjusting each toolholder to a predetermined treatment mode with jet crushing.

Figure 1 shows the device, a longitudinal section; Figure 2 shows the same view of CBeiTxy (conventionally removed).

The device for kinematic crushing of chips consists of a body 1 fixed by screws 2 in a stationary part of the machine, for example, to a mirror of a transmission box of a multi-spindle horizontal automatic machine (not shown), in which an inclined washer 5 is mounted on the shaft 3 on bearings 4, which is a pulse generator Gear systems named Lulso toolholder 6-11. The washer is installed with the possibility of rotation around its axis.

A gear 12 is mounted at the other end of the shaft 3, kinematically connected with the machine spindle (not shown

In the openings of the housing 1 for each tool holder 6-11 are mounted with the possibility of axial movement of the thrustors 13, in contact with one end with the inclined washer 5, and the other with the lever 1D belonging to the mechanisms that reduce the amplitude of vibrations of the tool holders 6-11. The levers 14 are mounted on axles 15, fixed in the plungers 16 and contacting, in turn, with the breadcrumbs 17 installed in the grooves 18 of the collar 19 with the possibility of rearranging them in the indicated grooves and fixed nuts 20. The lip 19 is attached to the body 1 screws 21 Each plunger 16 together with the corresponding lever 14 is installed in the corresponding housing 22 and prevented from turning by a groove 23 made in the housing 22. The housing 24 of the housing 1 is connected to the working fluid by means of a fitting 25 and connected by channels 26 bypass valves 27, s Communicating channels 28 and 29, spaced around the periphery of housing 1, and flexible hoses 30 with headless cavities 31 hydraulic nets 32

vibration actuators.

Each vibrating actuator is designed for a corresponding toolholder 6–11 and consists of a hydraulic cylinder 32 and a spring 34, spring-loaded through a spring 33, associated with a corresponding

toolholder 6-11. In each plunger 16, a safety valve 35 is installed.

The device works as follows.

Rotation from the machine spindle, not shown, is transmitted through gear 12 to shaft 3. When rotating shaft 3, the washer 5 tilts the pusher 13 of the tool holder in question, for example 7, in the plane of the drawing. When Ztom pusher 13 through the lever 14 moves the plunger 16 down. The latter squeezes the position of the liquid column below it and thereby moves, through the channels 28, 29 and the flexible hose 30, the rod 34 and the tool holder associated with it in the direction of the main feed. In this case, the spring 33 is compressed until the pusher 13 occupies the extreme upper position. With this, in the canals 28, 29, the flexible hose 30 and the rodless cavity 31 of the hydraulic cylinder 32, a maximum pressure value occurs, which is proportional to the resistance to be overcome from the cutting forces and the spring 33.

With further rotation of the inclined washer 5, the pressure in the liquid column, which is influenced by spring-loaded rod 34 on one side, and plunger 16 on the other hand, moves the latter upwards through lever 14, moving the pusher 13 down, constantly pressing it

to the inclined washer 5 until the pusher 13 is in the lowest position. At this time, the spring 33 moves the rod 34 with the tool holder 7 in the direction opposite to the main feed. Then the cycle is repeated.

35

Repeating the cycle described above creates a vibration of the grip of the holder with a cutter, which is superimposed on the main feed of the cutter and thus ensures the crushing of continuous chips into individual elements, the length of which depends on the crushing mode of the chips and the material being processed.

In case of overloads, when the pressure in the channels 29, 28 of the corresponding tool holder exceeds the permissible pressure, the safety valve 25 triggers. Hydraulic system leaks are replenished by make-up valves 27.

Claims (1)

To adjust the amplitude of vibrations of each tool holder, it is necessary to loosen the corresponding nut 20 and by moving the crumbs 17 into the groove 18 of the key 19 to set the required amplitude value. Then the cracker 17 is fixed with a nut 20. The formula of the invention The device for kinematic crushing chips on the multi-spindle . ten 7203 A machine tool that contains a pulse generator, made in the form of an inclined washer, mounted for rotation, a toolholder transmission system, consisting of a plunger and a hydrostatic transmission, and a vibratory actuator in the form of a hydraulic cylinder, differing from technological points; capabilities, it is equipped with mechanisms corresponding to each tool holder, reducing the amplitude of oscillations of the pulse generator, installed in the pulse transmission systems with the ability to interact with the lock and plunger of the corresponding pulse transmission system to the tool holder.   7 U-X-- 7 11 Compiled by G. Barinov Editor N. Slobod nickname Tehred.Didyk Order 4080/13 Circulation 974 Subscription VNIIPI USSR State Committee on affairs of inventions and openings 113035, Moscow, Zh-35, Rauschska nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader V. But ha