SU1481003A1 - Power source for elevated-frequency resistance welding - Google Patents

Abstract

The invention relates to welding production, namely, devices for resistance welding at higher frequencies, mainly parts of small thickness and cross sections, and can be used in electronic and instrument-making industries. The purpose of the invention is to improve the quality of the welded joint by improving the source control characteristics. The high-frequency resistance welding power source contains a thyristor bridge, a DC voltage source, a switching choke, an output transformer, a switching circuit from an additional thyristor and a capacitor. A rectifier bridge has been inserted into the power supply. The output transformer is provided with an additional winding. The use of a simpler thyristor switching node at the source provides a rapid decrease in the current in the load when adjusted for an instantaneous value of the current, i.e., this source has improved control characteristics. 2 Il.

Description

one

The invention relates to welding production, namely, devices for resistance welding at higher frequencies, mainly parts of small thickness and cross sections, and can be used in electronic and instrument-making industries.

The aim of the invention is to improve the quality of the welded joint by improving the source control characteristic.

FIG. 1 shows a power supply circuit; in fig. 2 - time diagram of his work.

The power source contains a thyristor bridge 1 connected by a first diagonal through a series-connected switching choke 2 to a source of constant voltage 3 and to a circuit from an additional thyristor 4 and a capacitor 5, and a second diagonal to the primary winding 6 of the output transformer, and a rectifying bridge 7 , to the input of which is connected an additional winding 8 of the output transformer. The hornistor bridge 1 contains thyristors 9-12, the rectifying bridge 7 contains diodes 13-16. The output transformer contains a secondary winding 17 connected to the load 18.

In the initial state, the tripistors 4 and 9-12 are turned off, there is some voltage L / on the capacitor 5 (Fig. 2).

At some time moment t, the thyristors 9 and 12 are opened and the first winding 6 of the output transformer is supplied with the source 3, minus the voltage drop across the switching throttle 2. At time / and the voltage on the additional winding 8 of the output transformer exceeds the sum of the voltages elements 3, 2 and 5 and through the rectifying bridge 7 discharges the cond4

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ABOUT

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The capacitor 5 along the circuit 7-3-2-5 to the voltage UCii (Fig. 2), determined by the transformation ratio of the windings 6 and 8 of the output transformer. Discharge current is limited by switching choke 2 (4, Fig. 2). At the instant / 3, the charging of the capacitor 5 is completed and the diodes of the bridge 7 are closed.

To turn off thyristors 9 and 12, an additional thyristor 4 is turned on at the time of) C, and the voltage is & the capacitor 5 of the polarity, which locks the thyristors 9 and 12, is fed to the first diagonal of the thyristor bridge 1. The capacitor 5 is recharged along the circuit 4-3-2-5 and through the thyristors 9 and 12 to the load. The discharge time of the capacitor 5 to zero voltage is allocated to lock-in thyristors 9 and 12. Thyristors 9 and 12 are turned off. The oscillating process in circuit 4-3-2-5 continues until the moment / 5, for which the switching throttle 2 gives all the energy to the capacitor B, and the thyristor 4 is turned off. Further, the oscillatory process continues in circuit 5-7-3-2 until moment / e, as a result of which the Initial voltage UCt is established on the capacitor 5, and the current; in the switching throttle 2 decreases to zero.

The next cycle of the power source when turning on the thyristors 10 and 11 occurs in a similar way.

The primary winding 6 of the output transformer can be connected to the second

0

five

0

five

the diagonal of the thyristor bridge 1 through an isolating capacitor for protection against short circuits at the output.

To eliminate the accumulation of energy in the separation and switching capacitors, thyristors 9-12 can be bridged by reverse diodes.

The use of a simpler serial thyristor switching unit in the power source ensures a rapid decrease in the current in the load during the control process with respect to the instantaneous value of the current, i.e., the device has better control characteristics.

Claims (1)

Invention Formula A high-frequency resistance welding power source containing a thyristor bridge, the first diagonal of which is connected via a switching choke to a constant voltage source, and the second diagonal of the thyristor bridge connected to the primary winding of the output transformer, characterized in that the welded joint by improving the source control characteristic, a rectifying bridge was inserted into it, and the output transformer is provided with an additional winding connected to the input to The bridge is winding, and an additional thyristor is connected parallel to its output. 1 B ti Ur 1L Uc