SU706209A1 - Electric arc exiting method - Google Patents

Description

one

The invention relates to the field of welding production, in particular, to methods for initiating an electric arc.

A known method of driving an arc with high-voltage high-frequency first pulse 1.

The disadvantage of this method is the low reliability of the excitation of the arc, the high level of radio interference generated and the increased danger of electric shock.

The aim of the invention is to increase the reliability of ignition of the arc and reduce the level of radio interference.

The goal is achieved by the fact that two high-frequency high-frequency pulses are simultaneously applied to the interelectrode gap with a voltage sufficient for a breakdown arc of 5-15 kV and a low-voltage high power, the value of which is 300--500 V, while providing the increase in current from the main source to the magnitude of the arc current due to the duration of the low-voltage pulse.

The drawing shows oscillograms of the process of arc initiation for variable

and direct current, where Uxx is the no-load voltage of the main power source; UjH is the high voltage pulse voltage; They are low voltage pulse voltage; and about. - electric arc voltage.

The arc is excited by two pulses. The first lz pulse pierces and ionizes the interelectrode gap. The second pulse U does not support the required conductivity of the interelectrode gas for the time necessary for the current to rise from the main source to the magnitude of the arc. This leads to the initiation of the arc Ug., Which is further maintained by the main power source.

When the arc Uj is excited by a single high-voltage pulse UBH, its duration and power must be sufficient so that from a welding power source with a low open-circuit voltage Uxx (40-60 V) and high inertia (welding inductance 50-- 80 mW) the current rises to arc values. For this reason, for some power sources, the power of existing oscillator designs is not enough to ensure reliable arc excitation. In addition, a powerful high-voltage pulse UfiH creates large radio interference and can be dangerous for the welder. When an arc is excited, the power of a high-voltage pulse can be quite small, since in this case it is necessary to ensure the development of a gas discharge from the Schlbjnerнер tion source with a relatively high no-load voltage (300-500 V), which delivers the second pulse. The second impulse is given in such a way to ensure the increase in current from the main source to the magnitude of the arc. In this case, the time of action and the power of a high-voltage pulse (kV) can be dramatically reduced; which reduces radio interference and reduces the danger of electric shock, and it is much easier to obtain the necessary power, pulse duration and duration without a TerB to transfer it to an arc at voltages of 300-500 V, which do not require a step-up transformer and protection system allows you to reduce the cost of the device for implementing the method and to ensure the reliable initiation of the arc for any power sources. Claims The method of exciting an electric arc by a high-voltage high-frequency pulse, characterized in that, in order to increase the reliability of ignition of the arc and reduce the level of radio interference, two high-frequency high-frequency pulses are simultaneously applied to the interelectrode gap, and low-voltage high power, the value of which is equal to 300500 V, while providing an increase in current from the main source to the value of the arc current for m low voltage pulse duration. Sources of information taken into account in the examination 1. Leskov GI Electric arc welding. M., “Engineering, 1970, p. 9.