SU137603A1 - Welding machine - Google Patents

Description

For welding with large currents, it is known to use a machine with a reserve of energy in a working capacitor (in particular, in a battery of electrolytic capacitors, discharging, them to the primary winding of a welding transformer via ignitrons).

In such machines, the welding circuit has a significant inductance, and in the process of discharging the -capacitor its charge in the opposite direction is inevitable due to the energy of the magnetic field. In this case, the reverse voltage on the capacitor can reach a significant value (on the order of 70-75% of the value of its working capacitor voltage).

In order to prevent such a resistance and a working capacitor, it is shunted — when a reverse voltage is applied — it is ignited, ignitedron (or a thyratron). However, this known method is associated with the useless loss of energy of a magnetic field, which is transformed into a thermal field and is dissipated.

In order to reduce power consumption and reduce the maximum power during charging of the capacitor, it is proposed to switch on auxiliary ignitrons parallel to the discharge ignitrons, which turn on when the reverse voltage is applied to the working capacitor and recharge the capacitor in the same direction as it was charged. before discharge, due to the energy of the magnetic field of the welding circuit.

The drawing shows a bit of the electrical circuit of the proposed welding machine. The charges and the control part of the circuit are not represented, since they do not differ from the usual ones and they are of no interest.

In the drawing, the following notation is accepted: C — working coupler (battery of electrolytic capacitors); TS - welding

No. 137603-2 a transformer having two identical primary windings, GSZ and TCi2, connected in series, and the secondary winding of the vehicle, supplying the welding circuit of the SC; I), Yag - the main bit ignitrons; 3, fft - auxiliary ignitrons; Г, TZ and Гз, Т - thyratrons for ignition of the main and, respectively, auxiliary - tonerons.

In the drawing, circled in dotted lines and labeled with the numbers I and II are the grid chains of the TI and TZ thyratrons.

The two primary windings at the welding transformer are used, as well as in the known schemes, to change the direction of alternating discharge currents in order to eliminate the transformer magnetized willow. You can, however, make a welding transformer with one primary winding, and use a switching contactor to change the direction of alternating discharge currents.

Auxiliary Ignitrons I and I, the presence of which is the main difference between the proposed mask and the same type of welding masks, in the discharge process of capacitor C commutes currents in such a way that due to the energy of the magnetic field of the welding circuit C / C, the capacitor charges in the same on the board in which he was charged before discharge. When the contacts of the relay PI are closed, the discharge of the charged capacitor C through the ignitron HI to the winding of the TCSC of the transformer begins, or when the relay is switched on through the ignitron HZ to the winding of the transformer.

Below, the capacitor is discharged to any one of the two transformer windings, for example, HCV, since the discharge to the other winding is carried out in a similar way. When the relay PI is turned on, its normally open contact is closed and the negative displacement from the grid of the thyratron G is removed; positive pulse of capacitor Ci to codensor Cz

The TI thyratron, tanning, ignites the HI ignitron and initiates the discharge flow through the TSP winding as well.

During discharge, the voltage on capacitor C decreases, and then changes its sign.

When a reverse polarity voltage appears on the capacitor, the current source is no longer a capacitor, but a magnetic field in the inductance of the welding circuit.

In this case, a voltage appears on the Ynitron, the positive potential of which is applied to the Ignitron anode, and a negative potential to the cathode.

The voltage on the ignitron Yaz is summed from emf. TCiz transformer primary winding and voltage across the operating capacitor C e. d. winding TCi2 is equal to the emf. coil and equal to the voltage across the capacitor C and the voltage drop across the ignitron HI.

Thus, when a reverse voltage appears on capacitor C, the voltage on the ignitron Yaz is equal to the double reverse voltage on the indicated capacitor plus approximately 30 volts.

When a voltage on the ignitron Yaz is reached in the order of 150-200, it turns on.

Next, the switching of the current occurs: the current hp in the winding of the TCSC drops to zero, and a current of the same direction appears in the winding TCiz as the current ill. Current "12 charges capacitor C in the same direction in which this capacitor was charged to prevent its discharge.

The charge lasts until all the energy of the magnetic field of the welding circuit is converted to the energy of the electric field in the capacitor and partially to thermal energy.

Subject matter

A welding machine for capacitor resistance welding, containing a working capacitor, a welding transformer and ignitrons in a capacitor discharge circuit, characterized in that, in order to reduce energy consumption and reduce the maximum power when charging a capacitor, auxiliary ignitrons are connected in parallel with the discharge ignitrons, energized at the reverse voltage on the working capacitor and recharging the capacitor in the same direction as it was charged before discharge, due to and magnetic field welding circuit.

No. 137603

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