HU184002B - Device for operating welding machine - Google Patents

Abstract

The aim of the invention is to have a welding machine available, which ensures a proper execution of Schweißnaehten in automatic operation even in deviating from the horizontal position layers. The invention has for its object to design the working circuit so that the welding current and thus the electromagnetic field at the location of the plasma channel remains constant. The working circuit contains a Schweißnetzgeraet (1) and in its DC circuit (2) by a one of a diode (4) and a resistor (5) existing two-coil shunted inductor (3) and a circuit for automatic control of the output voltage, consisting of an output voltage measuring circuit (7), a summing node (9), a voltage adjusting circuit (10) and an output voltage regulator (12). In addition, the working circuit contains a circuit for rapid arc ignition, comprising a current measuring circuit (8) interconnected with a pre-control circuit (13) of a voltage regulator (12). Another solution of the fast arc circuit includes a current sensing circuit (8) interconnected via a control circuit (15) to a short-circuiting device (16) shunting a portion of the choke coil (3). Fig. 1

Description

The present invention relates to an apparatus for operating a welding machine suitable for automatic operation.

Known welding machine systems of this type, such as the LAAB-500 welding machine from ESAB Sweden, include a welding power supply having a step-adjustable inductive choke, a summing point, a voltage adjusting circuit, an output voltage converter, and a transformer power supply.

The disadvantage of the above solution is that the magnetic field around the electric arc and plasma channel is not stabilized and thus cannot be used for continuous welding in the automatic mode other than left-handed welding without metal leakage.

Another solution disclosed in DE 2 870 979 is a highly self-inductive choke coil powered by a separate DC power supply at the end of a welding torch which stabilizes the molten metal.

A disadvantage of the above solution is that it does not deactivate the mechanical forces generated by the alternating component of the welding current, which splatters the molten metal.

SUMMARY OF THE INVENTION The object of the present invention was to provide a simple apparatus for operating a welding machine, which would provide flawless seams in automatic mode other than left-hand welding.

The object of the present invention is solved by providing a voltage adjusting circuit coupled to a choke coil and a summing point voltage measuring circuit in a direct current portion of the power supply of the apparatus and comprising a diode and a resistor connected in parallel to the choke coil. The quick arc ignition system has a current measuring circuit connected to the DC output of the welding machine, the output of which is connected to the input of an internal control circuit connected to an output voltage regulator.

In a further development of the apparatus according to the invention, the fast arc ignition system comprises a current measuring circuit connected to the DC output of the welding machine, the output of which is connected to an additional control circuit input and a control circuit output connected to a shorting switch.

The device for operating the welding machine according to the invention is capable of producing perfect welds in any position due to the low pulsation of the electromagnetic field around the welding current, i.e. the plasma channel of the welding. aul oma to operation, or when the welding machine is controlled by an industrial processor data processor.

The invention will be described in more detail with reference to one embodiment, with the help of the drawing. 1 is a circuit diagram of a welding machine actuator having a voltage generator rapid arc ignition system;

Fig. 2 is a circuit diagram of a welding machine actuator having a fast arc ignition system simulating the inductance of a DC circuit of a welding machine.

As shown in FIG. 1, the actuator of the welding machine comprises a welding power supply 1 having a bipolar 3 circuit comprising a parallel connection of a choke 3 and a resistor 5 connected in series with a diode. A voltage measuring circuit 7 and a current measuring circuit 8 are provided at the DC output 6 of the welding machine power supply 1. The output of the voltage measuring circuit 7 is connected to one of the inputs of the summing point 9 ', the other input of which is connected to the output of the voltage setting circuit 10 of the welding machine. The output of the summing point 9 is connected to the input 11 of the output voltage regulator 12 of the power supply 1. On the other hand, the output of the current measuring circuit 8 of the hanging machine is connected via the internal control circuit 13 of the output voltage regulator 12 to the input 14 of the output voltage regulator 12.

In a possible further development of the invention, as shown in FIG. 2, the DC circuit 2 of the power supply unit 1 comprises a bipolar coil 3 and a bipolar 3 resistor connected in series with a diode 4 resistor. A voltage measuring circuit 7 and a current measuring circuit 8 are provided on the DC output 6 of the welding machine. The output of the voltage measuring circuit 7 is connected to one of the inputs of the summing point 9, the other input of which is connected to the output of the voltage setting circuit 10 of the welding machine. The output of the summing point 9 is connected to the input 11 of the output voltage regulator 12 of the power supply 1. On the other hand, the output of the current measuring circuit 8 is connected via a control circuit 15 to a short-circuit switch 16 which discharges a part of the choke 3.

The embodiment of Figure 1 has the following operation:

When the welding machine is switched on, there is no welding current at the DC output 6 of the welding machine, so that the current measuring circuit 8 fully regulates the output voltage regulator 12 of the welding machine, thus maximizing the DC 2 voltage of the welding machine. This voltage increases the rising current of the welding current at the DC output 6 of the welding machine to a predetermined value. When the specified current value is reached, the internal control circuit 13 at the DC output 6 of the welding machine stops operating and the control system of the welding machine switches to the tightly stabilized voltage mode set by the voltage setting circuit 10 of the power supply unit 1.

-2184002 is controlled by an output voltage regulator. The voltage of the voltage setting circuit 10 is compared by the summing point 9 to the output voltage measured by the voltage measuring circuit 7. The high inductance of the throttle coil 3 is essential for smoothing the pulsation of the welding current, which is shunted by a bipolar containing diode 4 and resistor 5.

The operation of the apparatus of Figure 2 is as follows:

When the welding machine is switched on, no welding current appears at the DC output 6 of the welding machine, so that the current measuring circuit 8 closes the control circuit 15 via the control circuit 15, causing a decrease in the inductance of the throttle 3 to increase the welding current rise. When the welding current at the output 6 of the welding machine reaches a predetermined value, the control circuit 15 opens the short-circuit switch 16, whereby the full inductance of the choke 3 is incorporated into the DC circuit 2 of the welding machine. The operation of the device is the same as that of the device shown in Figure 1.

Claims (3)

An apparatus for operating a welding machine comprising a voltage adjusting circuit coupled to a choke coil and a voltage measuring circuit in a direct current portion of a power supply, and an output voltage regulator, characterized by a parallel (5) and has a system. The device according to claim 1, characterized in that the quick arc ignition system has a current measuring circuit (8) connected to the DC output (6) of the welding machine, the output of which is connected to the input control circuit (13) connected to the output voltage regulator (12). is connected. An embodiment of the apparatus according to claim 1, characterized in that the quick arc ignition system comprises a current measuring circuit (8) connected to the DC output of the welding machine, the output of which is connected to an input of a further control circuit (15). ) is connected to a shunt short-circuit switch (16) which shunt part of the choke coil (3).