SU141564A1 - Device for automatically limiting the voltage amplitude at the working capacity of a welding capacitor machine - Google Patents

Description

In welding capacitor seam machines, the charge of the working capacity is produced from the AC mains through a step-up transformer and a control valve for one half-period of the mains voltage. In the next half period, the working capacity is discharged through the second controlled valve to the welding transformer.

With the same transformation ratio of the step-up transformer, the voltage amplitude on the working capacitance varies with voltage fluctuations in the network. It also depends on a number of other factors: the magnitude of the working capacity, its charge frequency, the phase of the control pulse supplied to the gate of the charging circuit. As a result, fluctuations occur in the amount of energy accumulated in the working capacity during each charge cycle, which is unacceptable when welding highly sensitive elements.

In order to eliminate this drawback and ensure accurate dosing of the energy accumulated in the working capacity of the welding condensing machine, it is proposed to connect a pulse switching ignitron operating in the short circuit mode and ignited by an auxiliary thyratron controlled by the pulse shaper connected to the plates in parallel to the secondary winding of the step-up transformer working capacity.

FIG. 1 shows a circuit diagram of the device proposed; in fig. 2 is a pulse driver circuit.

The charge of the working capacity C, as in conventional welding capacitor machines, is made through the booster transformer Tr} and the controlled valve Bl, its charge on the welding transformer Tr2 through the controlled valve B2. Parallel to the working capacitance C, the PI pulse shaper is turned on, which creates at the input of auxiliary no. 141564-2 of a pulsed TIR thyratron pulses with a steep leading front, sufficient for its ignition. The thyratron TI ignites an IC ignitron switching unit operating in the short-circuit mode. The pulse shaper (Fig. 2) consists of a trigger circuit with one stable equilibrium state with a cathode bond assembled on L and L lamps, a voltage amplifier on the lamp, a coupler with a cathode load on the lamp L, and a power amplifier on the lamp // B . The voltage Uc is applied to the input of the release circuit from the working tank C (Fig. 1) through the voltage divider i-Rz-3- / 4. To smoothly adjust the circuit to the required voltage amplitude on the working capacitance, the resistance Rz is varied. Resistance R prevents shorting of the igniter-cathode section of the ignitron commutator. As the voltage on the working capacity rises to a predetermined resistance value R, the value of the PI pulse shaper triggers, which leads to the ignition of the infrared ignitron IR, which last shunts the secondary winding of the Trp transformer, as a result of which the anode potential of the valve B1 decreases to a lower value than is necessary for its operation, as a result of which the charge of the working capacity is terminated.

With a large capacitance of the transformer Tr1, it is possible to turn on the resistance R (Fig. 1), which facilitates the operation of the transformer when the ignitron IR is turned on. The use of this resistance is not necessary, as the inclusion of ignitron IR. occurs at the end of the half-cycle of the mains voltage and the duration of operation of the transformer Tr1 for ignitron IR is very small.

Subject invention

A device for automatically limiting the voltage amplitude at the working capacitance of a welding capacitor mask, characterized in that, in order to ensure accurate metering of energy stored in the capacitor, a pulse switching ignitron operating in the short-circuit mode and ignited by an auxiliary thyratron is connected parallel to the secondary winding of the booster transformer which is carried out by a pulse shaper connected to the plates of the working capacity.

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