RU2047444C1 - Device for carrying out resistance welding - Google Patents

Abstract

FIELD: resistance welding. SUBSTANCE: device has power supply source 1 for arc welding with accumulators 2 and capacitors 3 to which forceps 5 is connected through inverter 4 delivering current to articles under welding to perform resistance welding. EFFECT: enhanced quality of welding. 2 dwg

Description

 The invention relates to the welding of metals and can be used when feeding welding plants from low power networks at a low welding rate and a wide variety of shapes, sizes and materials of parts to be welded. Such conditions are characteristic of welding work carried out, for example, in repair shops and in everyday life.

 The aim of the invention is to reduce the mass of ticks, reducing the power consumed from the network, increasing electrical safety when working with ticks, eliminating the need for their grounding.

 The resistance welding installation consists of a power source for arc welding with a falling characteristic, pincers with a welding transformer for contact welding built into their casing, pincers are connected to a power source for arc welding through a high frequency inverter with a battery and capacitors connected in parallel to the inverter input.

 The power source for arc welding consists of a transformer and a rectifier. The rectified open-circuit voltage is usually 40-80 V. To perform resistance welding when feeding the tongs from the source for arc welding, an inverter should be connected to its output. The alternating current obtained by inverting can be increased to the value required for resistance welding using a welding transformer.

 The main difficulty in using an arc source to power contact welding mites is associated with the falling external characteristic U of this source. The dropping characteristic provides a voltage drop across the leakage inductance of the arc transformer. However, when performing contact welding, currents flow significantly over the windings of the arc transformer, significantly exceeding the nominal currents during arc welding. This leads to a large voltage drop across the leakage inductance of the arc transformer, which results in unacceptably high power consumption from the network. In order to reduce this power, batteries are included parallel to the inverter input, which provide the external source characteristic required for resistance welding.

 The use of a high-frequency inverter can significantly reduce the overall dimensions of the ticks by reducing the mass and dimensions of the transformer built into their casing, since the cross-sectional area of the magnetic circuit at a given voltage per turn of the transformer winding and a given working induction is inversely proportional to the frequency. When performing installation for arc and resistance welding, significantly increases electrical safety when working with tongs for resistance welding. This is due to the fact that thanks to the arc transformer, the pincers are separated from the network, a voltage reduced to 100 V is supplied to the primary winding of the welding transformer of pincers. In accordance with safety requirements, grounding of the pliers housing is not required.

 In FIG. 1 shows the electrical circuit of the installation for arc and resistance welding; in FIG. 2 external characteristics of the arc source and source for arc and resistance welding.

 The installation contains an arc power source 1 with a parallel-connected battery 2 and a capacitor 3, to which, using an increased frequency inverter 4, tongs for resistance welding 5 are connected, supplying current to the parts being welded 6.

 Installation works as follows.

 To perform resistance welding, the battery, capacitors, inverter and pincers are connected to the output of the arc source. In this case, electric current passes through the parts to be welded and welding is carried out as a result of heating of the parts at the contact point.

During welding, the batteries are partially discharged. Between weldings, the batteries are recharged from the network through an arc source. The use of batteries in the above mode (repeatedly intermittent with a current 2-4 times higher than the rated one, the speed of 1 welding per 1 min) is new. The possibility of such use of batteries is confirmed experimentally. Capacitors stabilized V _Rin inverter, which provides its working capacity.

 Thus, the installation allows to increase electrical safety when working with ticks, reduce the mass of ticks, and reduce power consumption.

Claims (1)

 FITTING WELDING PLANT, containing an arc power source and clamps with an integrated transformer, characterized in that, in order to reduce weight and size characteristics, save energy and increase electrical safety, it additionally contains a parallel-connected battery, capacitor and high frequency inverter connected to the clamps with an output built-in transformer, and the battery is connected to the output of the arc power source.

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