SU1326400A1 - Pulse shaper for electro-erosion working - Google Patents

Abstract

The invention relates to the field of electrophysical processing methods and can be used as a power source for pulsed current in the manufacture of parts on slotted EDM machines. The purpose of the invention is to enhance the functionality and increase the efficiency of the generator. This goal is achieved by using the energy accumulated in the storage capacitor 7. The application of inductance in the second discharge circuit allows a sharp increase in the output voltage of a low-power pulse, which is achieved by selecting the elements of the LC circuit to create a voltage resonance. The generator contains a power source 1, arresters 2 and 9, a transistor key 3, a ballast resistor 4, a resistor 5, a separation diode 6, an inductive element 8, made in the form of throttles. 1 il. (L + N - o

Description

The invention relates to electrophysical methods of processing and can be used in the manufacture of parts for copying and piercing and cutting EDM ctaHKax as a source of power by a pulsed current. , Zell (about the invention is to expand the functionality and increase the efficiency of the generator.

The drawing shows a schematic diagram of a pulse generator for EDM processing.

The pulse generator for electro-erosion treatment contains a power source 1, the first bit 2, a transistor switch 3, a ballast resistor 4, the first power source 1 of which is connected to the first terminal of the ballast resistor 4, and the second terminal of the power source 1 is connected to the first output of the resistor 5 and through the first discharge circuit 2 to the first output of the transistor switch 3, separation diode 6, storage capacitor 7, inductive element 8, is in the form of throttles, the first output of storage capacitor 3 is connected to The left lead of the inductive element 8, the second lead of which is connected to the second lead of the ballast resistor 4, the second bit 9 is connected in parallel to the separation diode 6, the first lead of which is connected to the connection point of the second lead of the resistor 5 with the first electrode of the second bit 9, and the second the output of the separation diode 6 is connected to the junction point of the second output of the storage capacitor 3 with the second electrode of the second discharge potential-9, the second output of the transistor switch 3 is connected to the connection point of the second ball output terminal Nogo resistor 4 to the second terminal of the inductive element 8. The work of the transistor switch determines the control unit (not shown) and may be formed as a blocking oscillator.

The pulse generator for EDMing works as follows,

When the transistor switch 3 is closed, the storage capacitor 7 charges along the circuit: the second terminal of the power supply source 1 - the resistor 5 - the separation diode 6 - the storage capacitor 7 - the inductive element 8 the ballast resistor 4 - the first power supply terminal 1. When unlocking the transistor switch 3 in the first digit -2, a working pulse is initiated across the circuit: the second terminal of the power source 1 - the first bit 2 - transistor switch 3 - the ballast resistor 4

the first terminal of the power supply 1., initiating a high-power working impulse.

At the same time, a pulse occurs and in the second bit 9 along the circuit: storage capacitor 7 - second discharge 9 transistor switch 3 - inductive element 8 - storage capacitor 7, discharging it and initiating a short pulse. After the key is locked, the cycle is repeated.

In the present generator, a 1DD turn-on is achieved by utilizing the energy accumulated in the storage capacitor 7 and necessary for the prevention of voltages on the transistor switch. The use of inductance and a second-discharge circuit allows a sharp increase in the output voltage of a low-power pulse, which is achieved by selecting elements of the LC-chain to create a voltage resonance.

Claims (1)

Invention Formula Pulse generator for EDM, containing a power source, the first terminal of which is connected to the first output of the ballast resistor, and the second terminal of the power supply connected to the first output of the resistor and through the first bit to the first output of the transistor switch, a storage capacitor, the first output of which is connected to the first inductor of the inductive element, the second output of which is connected to the second output of the ballast resistor, characterized in that, in order to expand the functional possibilities and an increase in efficiency, a separating diode and a second arrester are inserted into it, and the inductive element is in the form of droplets, with the resistor connected in parallel to the first discharge, the second output of the resistor is connected to the point of connection of the first electrode of the first discharge with the first output of the transistor key, second bit d3 1326400 nickname is connected in parallel to a split-output storage capacitor the primary diode, the first output of which is connected with the second electrode of the second discharge to the point of connection of the second, the second output of the transistor the second pin of the resistor with the first switch is connected to the connection point the electrode of the second discharge and the second output of the ballast resistor the second pin of the separation diode with the second pin of the inductive elec- troconnector to the junction point of the second moment.