SU965692A1 - Apparatus for electrochemical machining - Google Patents

Description

(54) DEVICE FOR ELECTROCHEMICAL DIMENSIONAL TREATMENT

one

The invention relates to mechanical engineering and can be used in electrochemical dimensional processing.

Devices for electrochemical machining using a pulsed process current are known, comprising a vibrator, a sensor for fixing the touch of an electrode tool and a part associated with a control signal generating element connected to an actuator that automatically feeds the tool electrode 1.

A disadvantage of the known devices is the impossibility of separately adjusting and optimizing such processing parameters as the size of the working and flushing inter-electrode gap; the duration of the working period and the period of p {) washing, which significantly reduces the processing performance due to the relatively rare dilutions of the electrode for washing the interelectrode gap.

The purpose of the invention is to provide an increase in processing performance by allowing independent adjustment of the size of the working and flushing interelectrode gaps, the duration of the working period and the period of washing while maintaining the simplicity and reliability of the device.

The goal is achieved by the fact that

5 in the device for electrochemical dimensional processing, the actuator is designed as a hydraulic cylinder, the device is equipped with an additional hydraulic cylinder, a single-plunger pump, a synchro sensor

Q and a servo cylinder; in this case, in the hydraulic cylinder of the rod actuating mechanism, the cavity is connected to the constant pressure line, and its piston cavity is connected to a single-plunger pump and an additional hydraulic cylinder, and a vibrator,

15, an additional hydraulic cylinder and a single-plunger pump are equipped with eccentrics, kinematically connected to each other, and the eccentric of the single-plunger pump is kinematically connected with the sensor and

2Q through a double-arm lever mounted on a rod of a servo cylinder with a plunger of a single plunger pump.

FIG. 1 shows the scheme of the proposed device; in fig. 2 - graphs of movements of the main elements of the device.

The rod 1 of the hydraulic cylinder 2 is connected to the rod 3 of the hydromechanical vibrator 4, the casing of which is connected to the spindle 5 carrying the electrode tool 6, the follow spool 7 of the vibrator 4 through the lever 8 is kinematically connected to the eccentric 9, the axis of the lever 8 is mounted in the bracket 10 fixed to on stock 1.

The vibrator 4 and the rod end of the cylinder 2 is connected to the pump 11.

The piston cavity of the cylinder 2 is connected to the auxiliary cylinder 12 and single-pump pump 13.

The plunger of the additional cylinder 12 is kinematically connected with the eccentric 14, and the plunger pump 13 through the lever 15 with the eccentric 16. The axis of the lever 15 is fixed on the rod of the servo cylinder 17. The eccentric 9 is connected through interchangeable gears 18 with an electric motor 19. The eccentrics 9, 14 and 16 are kinematically interconnected via interchangeable gears 20 and a constant gear transmission 21 with a transmission number 2. An eccentric 16 is connected kinematically with a synchro sensor 22.

The device works as follows.

The eccentrics 9, 14 and 16 are driven into rotation by the electric motor 19. Axial oscillations are connected to the next slide valve 7 via the lever 8. Under the action of the oil coming from the pump, the vibrator body 4, repeating the movement of the valve 7, also oscillates axially relative to its rod 3. Under the action of the eccentric 14, the plunger of the additional cylinder 12 communicates axial oscillations that change the volume of oil in the piston cavity of the cylinder 2, resulting in stem 1 performs axial oscillation.

Under the action of the eccentric 16 and the lever 15, a single-plunger pump 13 delivers oil to the piston cavity of cylinder 2, causing the rod 1 to move discretely forward one step for two periods of its oscillation.

Thus, the rod 1 and the rod 3 connected with it make a movement equal to the sum of the oscillatory and discrete-translational movement. The magnitude of the translational movement of the rod 1 for 1 turn of the eccentric 16 can be changed during processing using the servo cylinder 17, moving the axis of the lever 15. This changes the ratio of the arms of the lever 15 and, therefore, changes the stroke of the single-punch pump 13.

The purpose of the oscillations of the rod 1 is the following: to reduce friction forces in order to obtain a stable translational feed of the electrode tool 6; creating a complex oscillatory movement of the electrode-tool 6, which performs movements equal to the sum of the movements of the rod 3 and the body of the vibrator 4 relative to the rod 3. The gear ratio of the gear 20 is selected

equal to 1.5: 2.5 or 3.5 (depending on the processing conditions). With this ratio of oscillation frequencies of the vibrator 4 and the rod 1, and with an appropriate choice of the amplitudes of these oscillations, the total oscillation has a long working section, when the electrode-tool is from the part at the distance of the working interelectrode gap and where the working voltage is applied, the short feeling area, when the electrode tool fits the part for fixing the touch, the section of maximum removal of the electrode tool from the part for flushing the interelectrode gap (Fig. 2). The activation of the working and sensing voltage is performed by the commands of the synchro sensor 22.

FIG. 2 shows the following graphs:

a - oscillatory movement of the rod 1;

b - oscillatory movement of the body of the vibrator 4 relative to the rod 3;

c - translational movement of the stem Ij

g - movement of the electrode-tool 6;

d-pulses of the operating current;

€ - impulses to fix the touch.

Graphs are plotted for the following parameters:

oscillation amplitude

stem 1–0.05 mm;

the oscillation amplitude of the vibrator 4 relative to

stem 3–0.025 mm;

stem movement 1

per cycle - 0.002 mm.

The use of the device for electrochemical processing increases the productivity and accuracy of processing by increasing the relative duration of the operating current pulse during the oscillation period of the electrode tool, stabilizing the working interelectrode gap and high-quality washing the interelectrode gap.

Claims (1)

Invention Formula A device for electrochemical dimensional processing using pulsed current, which contains an electrode-tool-carrying vibrator and an actuator for automatically supplying an electrode-tool, kinematically connected with it, characterized in that, in order to improve the performance of the machining process by allowing independent adjustment of the working value and the interelectrode flushing gap, for the duration of the working period and the flushing period, while maintaining simplicity and reliability, flax mechanism is designed as a hydraulic cylinder, a hydraulic cylinder device is provided with an additional, odnoplunzhernym pump sinhrodatchikom