SU865579A1 - Pulse generator electro-erosion working of materials - Google Patents

Description

The invention relates to electro- ^λ physical methods of processing materials and relates to pulse generators for EDM processing of materials,

Known pulse generator for electrical discharge machining of materials, containing valve-condenser rectifier - voltage multiplier.-. It consists of two diodes and two capacitors, forming two diode-capacitor branches connected according to the electric bridge circuit, the output diagonal of which is connected to the working electrodes, diodes are included in two 15 cross shoulders of the bridge, capacitors are included in the other two, and capacitors are in the other two diagonally connected the outputs of the phase winding of an electric current source of alternating current [1J. 20

However, the output voltage of this generator does not exceed the triple value of the amplitude of the phase voltage of the source, and its power is supplied only from one phase of a three-phase AC source, which, limiting the rate of transfer of the source energy to the load, is accompanied by an asymmetry of phase currents and overestimated mass-dimensional dimensions of the generator pulses.

The aim of the invention is to improve the specific mass and dimensions and increase the rate of energy transfer of the source into the interelectrode gap.

This goal is achieved by the fact that in a pulse generator for electrical discharge machining of materials containing a valve-condenser rectifier is a voltage multiplier made of two diodes and two capacitors, forming two diode-capacitor branches connected by an electric bridge circuit, the output diagonal of which is connected to the workers electrodes, diodes are included in two crosswise shoulders of the bridge, capacitors are included in the other two, and phase output windings of the electric power source are connected to the input diagonal alternating current source, the AC electric energy source is made three-phase, while the same name leads the second and third phase windings of the source are connected to the beginning of the winding of the mentioned source, the second phase winding is included in the arm of the bridge with the bottom of the house, and the third with the capacitor, and the output end of the second the phase winding of the source is connected to the anode of the diode, and the output of the end of the third is connected to the capacitor winding of the diode-capacitor branch adjacent to the output diagonal of the bridge. The indicated connection of the windings of a three-phase AC source allows to increase the amplitude of the voltage of the generator pulse to triple the value of the linear voltage of the source, i.e. before

5.2 times the amplitude of the phase voltage. This provides a source of energy transfer not only with high speed and · efficiency, but also with improved mass-dimensional parameters.

The drawing shows a circuit diagram of a generator.

The generator contains input terminals

1.2 and 3 for connecting to a three-phase AC source, valves 4 and 5, storage capacitors 6 and 7, positive and negative output terminals 8 and 9 for connecting electrodes 10. In this case, the positive output terminal 8 is connected to the cathode of diode 4 and one capacitor winding 7, and the negative terminal 9 is connected to the diode of the diode 5 and one winding of the capacitor 6. The first terminal is connected to the anode of the diode 4, the second to the connection point of the storage capacitor 7 and diode 5, and the third to the capacitor 6.

The generator idling operates as follows.

Let the linear voltage of the first and second phases be zero at the initial instant of time, and at subsequent moments of time it will increase so that a positive potential is applied to the terminal. Then, after 90 electrical degrees to the linear voltage of the first and second phases, the storage capacitor 7 is charged through the diode 4. After 15-0 electrical degrees from the reference point to the linear voltage of the second and third phases, the capacitor 6 is charged through the diode 5, and after 330 electrical degrees the linear voltage the second and third phases reaches its maximum value and is summed with the voltage of the storage capacitors 6 and 7. In this case, the amplitude of the output voltage reaches a triple value of the amplitude of the linear voltage Source. This voltage is applied to the electrodes 10, between which an electric discharge occurs.

The proposed generator allows, without changing the elemental composition and mass of the generator, to obtain pulses whose voltage amplitude is 5.2 times higher than the amplitude of the phase voltage of the source. By increasing the rate of transfer of energy of the source to the load, this improves the specific mass and overall parameters of the generator as a whole,

Claims (1)

(54) PULSE GENERATOR FOR ELECTROEROSIC forming two diode-capacitor branches connected according to the electric bridge scheme, the output diagonal of which is connected to the working elec delivery, lying crosswise in two arms of the bridge diodes are included in the other two - the capacitor and to the input terminals are connected diagonally phase windings source of electrical AC energy fl. However, the output voltage of this generator does not exceed the value of three times the amplitude of the phase voltage of the source, and it is powered only from a single phase of a three-phase AC source, which, limiting the rate of energy transfer of the source to the load, is accompanied by asymmetry of phase currents and overestimated TREATMENT OF MATERIALs overall pulse generator indicators. The aim of the invention is to improve the specific mass-dimensional parameters and increase the speed of energy transfer from the source to the interelectrode gap. This goal is achieved by the fact that in a pulse generator for electroerosive processing of materials, containing a valve-capacitor rectifier - a voltage multiplier made of two diodes and two capacitors, forming two diode-capacitor branches, connected by an electric bridge circuit, the output diagonal of which connected to the working electrodes, diodes of the bridge are connected in two crosswise directions, capacitors are included in the other two, capacitors of the source winding are connected to the input diagonal AC power, a source of AC electrical energy made three-phase, with the same-namepolar output of the second and third phase windings of the source connected to the starting winding of the source, the second phase winding is connected to the arm of the bridge with a diode, and a third - with a capacitor, with the output of the end of the second phase winding of the source is connected to the diode anode, and the output of the end of the third to the capacitor winding of the diode - capacitor branch adjacent to the output diagonal of the bridge. The said connection of the windings of the three-phase AC source allows the amplitude of the voltage of the Vopa generator to be increased to three times the value of the source's linear voltage, i.e. up to 5.2 times the amplitude of the phase voltage. This ensures the transfer of the energy source not only with high speed and. Efficiency, but also with improved weight and size. The drawing shows the principal electrical circuit of the generator. The generator contains input terminals 1.2 and 3 for connection to a three-phase AC source, valves 4 and 5, storage capacitors 6 and 7, and positive and negative output terminals 8 and 9 for connecting electrodes 10. At the same time, the positive terminal 8 is connected to the cathode ZZ. / nbdl 4 and one winding capacitor 7, and the negative terminal 9 is connected to the end of diode 5 and one winding of capacitor 6. The first terminal is with | not | 1a with the anode of diode 4, the second with the connection point of storage capacitor 7 and diode 5 and a third with a capacitor b. The generator in idle mode works as follows. Suppose that at the initial time moment the linear voltage of the first and second phases is zero, and in the subsequent moments the time increases so that a positive potential is applied to the terminal. Then, through 90 electrical grgadus to the linear voltage of the first and second phases, the storage capacitor 7 is charged through diode 4. After 150 degrees from the reference point to the linear voltage of the second and third phases, the capacitor b is charged through diode 5, and degrees, the linear voltage of the second and third phases reaches its maximum value and is summed up with the voltage of the storage capacitors b and 7. At the same time, the amplitude of the running voltage reaches three times the amplitude of the linear voltage source. This voltage is supplied to the electrodes 10, between which an electrical discharge occurs. The proposed generator allows, without changing the elemental composition and mass of the generator, to obtain pulses, the voltage amplitude of which is 5.2 times higher than the phase voltage of the source. Increasing the source energy transfer rate to the load, it improves the specific mass-dimensional parameters of the generator as a whole. Claims An impulse generator for electroerosive processing of materials, containing a valve-capacitor rectifier - a voltage multiplier, of two diodes and two capacitors, two diode-capacitor above the branches, connected according to the electric bridge scheme, the output diagonal of which is connected to the working electrodes, diodes of the bridge are crossed in two crosswise, the other two capacitors, and phase windings of an alternating current source of electrical power are connected to the input diagonal, characterized in that, in order to improve the specific mass-dimensional parameters with increasing speed and energy transfer of the source to the interelectrode gap, the alternating current power source is three-phase, while by the same name, the terminals of the second and third phase windings of the source are connected to the beginning of the winding of the aforementioned 1: that source, the second phase winding is included in the bridge arm with the diode, and ret - with a capacitor, and the output end. the second phase winding of the source is connected to the diode anode, and the third cope terminal is connected to the capacitor winding to the diode-capacitor branch adjacent to the output diagonal of the bridge. Sources of information taken into account in the examination 1. Handbook of semiconductor electronics. Ed. Hunter L.P., M., Mashinostroenie, 1979, pp. 308-311.