SU367986A1 - DEVICE FOR CONTACT MICROWELDING ^ w - Google Patents

Description

one

The invention relates to the field of welding and can be used in a 0VKah mouth for contact microarray welding with a Plenum electrode of an electronic chip, as well as for two-sided contact welding of parts of small thickness.

The known devices for contact compacting parts of small thickness, containing a welding transformer, a working capacitor, a series inverter with a ballast capacitor and a feedback system for co-load stimulation, have a relatively low efficiency factor. and large dimensions of the ballast capacitor.

The proposed device differs from the known one in that the switching capacitor in the pause is too short for the immersion 1M and the load current is discharged to the transformer and not to the active resistance. In this connection, the electrical energy removed from the working capacity is supplied to the input of the inverter for the extraction of a ballast capacitor, i.e., the recovery of the energy.

This increases the efficiency. system, improves the process of automatic adjustment of the amplitude of the pulses of current, by increasing the linearity of the discharge curve of the working capacitance, and also makes it possible to lower the value of the ballast capacitance at the input of the inverter.

The drawing shows the electrical circuit of the proposed device.

The device is designed as an autonomous bipolar inverter consisting of thyristor TI, Ha, Tz and 4, a working capacitor C, a welding transformer CT as the inverter load-. In parallel with the working capacitor C, a transformer Tp and thyristors Gz are connected. The Te Inverter is connected to the power supply with a loop. Single (ballast) condenser Sat. The outputs of the excitation system are connected to the thyristor control section G, Gg, Tz and, and to the welding electrodes - the reverse system

communications (SOS). Its outputs are connected to the control electrodes of the thyristors GB and Tg. When the system is supplied, control pulses are applied to the thyristors TI and T3. When T and Gz thyristors are turned on, a welding current passes through the welding transformer, defined by the parameters of the CT-S circuit, which are chosen so that the process is oscillatory, like the natural frequency of the CT-C circuit is higher than the pulse repetition frequency, which excludes simultaneous switching on the thyristors of different inverter shoulders (short circuit of the source) and determines the presence of a pause between

impulse current When the current through the thyristors TI and Gz to zero diminishes, they lock up. At this instant, the working capacitor C is charged before the "loading, determined by the input voltage and the capacitance of the" tour. During the pause period — between — the thyristor switch-off) TI and Gz 1I turn on the TZ thyristors and a control impulse is fed to the TZ or TZ thyristor (depending on the polarity of the voltage and the C-condenser); SOS, moreover, the greater the resistance of the parts to be welded (and, consequently, the voltage drop), the lower the control pulse is applied to the thyristor GB or Te.

After switching on one of these shooting ranges, capacitor C begins to be discharged onto a trformator Tr. From the secondary winding of the Tip aNs form and the torus a Tp, the energy is supplied to the "input of the inverter by means of a subcharge and a ballast capacitance." Through the time gap determined by the excitation system, control pulses are applied to the thyristors 72 and G4. Cond-nsator C begins T1 rezar l: ns. The amplitude of the pulse flowing through the welding torch; the matrix is determined by the voltage across the working capacitor C, to which it is discharged during the pause period. In the future, the process is repeated. Thyristors GB and TB work one by one.

Such a system allows, in wide ranges, to regulate the amplitude of the impulses of the current of the load so that the effective value of the voltage between the welding electrodes remains constant when the resistance changes between them. The inclusion in the depot of the discharge of the working capacity of the transformer allows for the recovery of electrical energy, which significantly increases the 1KPD. system, improves the linearity of the discharge of the capacitor C and reduces the size of the ballast capacitance.

Subject invention

A device for contact micro-welding of parts of small thickness, containing a welding transformer, a working capacitor, a series inverter with a ballast capacitor, and a feedback system for load resistance, characterized in that in order to increase its efficiency and reducing the dimensions of the ballast capacitor, it is equipped with a transformer connected via thyristors parallel to the working capacitor and transmitting electrical energy to the input of the inverter for charging the ballast capacitor.

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