SU611766A1 - Apparatus for pressure-working of metals - Google Patents

Description

The invention relates to the processing of metals by pressure. A metal forming device is known, which contains a spring-loaded impact head placed inside a solenoid, as well as a power source electrically connected to the solenoid and striker, and contact contacts for applying current to the surface of the workpiece IJ. The purpose of the invention is to increase the quality of the parts produced due to providing the possibility of preventing the formation of 1 electric arc and sparks in the contact zone of the striker with the surface of the workpiece. For this, the device is equipped with a step-down transformer, the secondary winding of which includes the main thyristor and resistance, forming an unbalanced electrical circuit, in the diagonal that is the contact for supplying current to the surface of the workpiece, an additional thyristor is included. The device is equipped with a control unit for main and additional thyristors, made in the form of electrically interconnected block-generators, uni-vibrators and a pulse former. FIG. 1 is a schematic diagram of the device; FIG. 2 is a graph showing the progress of the process over a single period of current flow. The device contains a solenoid 1, a striking block 2, a diode 3, a trout-reducing transformer-4, a main 5 and an additional 6 thyristors, a resistance 7 and a thyristor control unit including a driver Pulses 8, two single-oscillators 9 and 1 O with adjustable pulse duration and two pending generator 11 and 12. The power supply of the device is produced from a three-phase network of industrial frequency of 5 Hz. Into the winding of the solenoid 1, through diode 3, a pulsed current of frequency 5 Hz is delivered, a blow to the workpiece 13. The hammer 2 and part 13 are included in the electrical circuit of the secondary windings of the step-down transformer 4. To operate the device, it is necessary that

coinciding in phase with the current passing through the striker 2 circuit - part 13. In connection with the presence of inductive co-horn winding of the sapenoid, the phase shift between the voltage and the current in it is BO.

To ensure that the oscillation phase of the striker 2 coincides with the phase of the current passed through the striker circuit, the primary winding of the transformer 4 is connected to another pair of phases of the three-phase network. Due to this, the impact of the striker 2 (closing and opening the contact) about the workpiece and passing the current through their contact takes place during one and the same period of time, and the voltage feeding the step-down transformer 4, due to the use of thyristors with one-way conductivity. , half a period reflects (idle speed of the striker).

The current is controlled by a thyristor 6 connected in series to the dummy part circuit, part 14 of the secondary winding of the transformer 4, resistance 7, the thyristor b is opened by current pulse 1 generated by the blocking generator 12. The moment of occurrence of pulse 1 during the working half period a is controlled by a single Yu scrub from the beginning to the middle of the working half period a. After unlocking the thyristor 6, a current begins to flow through the contact of the striker, heating the contact point of the striker with the material of the part 13.

Switching off the current in the circuit of the dowel 2-Part 13 part G4 of the step-down transformer 4 - resistance 7 - thyristor 6 is carried out by locking the thyristor 6. To lock the thyristor 6 until the contact breaks out, the bridge has shoulders formed by part 15 of the secondary winding step-down transformer 4, thyristor 5, resistance 7 and part 14 of the secondary winding of the transformer 4.-.

Thyristor S is unlocked by an impulse P to ka ,. formed by a block-generator 11. The moment of occurrence of the pulse P during the working half-period q is controlled by a single vibrator 9 ranging from the middle to the end of the working half-period sd.

After unlocking the thyristor 5, the thyristor 6 turns out to be included in the diagonal of the unbalanced bridge, the unbalance sign of which is set by changing the resistance value 7 so that the unbalance voltage is applied to the thyristor 6 in the closing polarity (plus to the cathode, minus to the anode). The thyristor 6 is locked and the thyristor 6 is de-energized.

Consequently, at the moment of breaking the contact of the striker-part, the circuit is already de-energized, which prevents the formation of an electric arc and an electric spark in the gap between the striker 2 and the workpiece 13.

The USG prevents the formation of electric arc and sparks in the zone of contact of the striker with the surface of the workpiece, which improves the quality of the parts produced.

Claims (1)

1. USSR author's certificate number 387819, cl. B 24 B 39 / GS, 1968.