SU1080938A1 - Apparatus for switching welding transformer - Google Patents

Abstract

DEVICE FOR SWITCHING welding transformer, comprising a switching element through which the primary winding of the welding transformer is connected to the input terminal device KOMMUtirukitstsm control circuit element, the transformer trigger signal and the pulse generator consisting of Rahere dnog9 element, a capacitor, a resistor and a rectifying unit element, wherein the fact that, with the aim of improving electrical safety while improving the reliability of the excitation of the welding arc, the welding transformer is equipped A complete winding located on a common magnetic core, the first output of the auxiliary winding is connected to one input terminal of the device, and the second to the cathode of the discharge element, the anode of the latter through a resistor connected to the cathode of the rectifying element, its anode connected to (another input terminal , with the first capacitor plate connected (L on to ONE input terminal, and the second to the anode of the discharge element.

Description

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DO 00 The invention relates to welding, in particular to automatic machines for switching a welding transformer, and can be used in manual welding of metals in order to protect a person from electric current and reduce electric energy losses. In electric welding, a common problem is to reduce energy losses and reduce the risk of injury to a person by the voltage of the secondary winding of a welding transformer at idle. There are technical solutions to limit the no-load voltage of an evarochny transformer to a safe value. However, they do not provide a satisfactory solution to these problems, since the conditions for ignition of the arc deteriorate. In practice, the objects to be welded are covered with rust, scale and have a rough uneven surface, so the welder needs to frequently tap on the object being welded to create a reliable electrical contact between the electrode and the welded object with a limited voltage until the arc is burned. This is especially inconvenient when welding ceiling and vertical joints, i.e. limiting the no-load voltage adversely affects the welding process and performance. On the other hand, the nominal no-load voltage of the welding transformer, 60 to 65 V, is dangerous. However, it is known that the voltage of high frequencies; Starting from 2 kHz and above is safer than a voltage with a frequency of 50 Hz and at a frequency of 20–30 kHz is 10–20% of the danger of a voltage of industrial frequency. Therefore, the use of autonomous pulse generators in switching devices of welding transformers allows one to fulfill electrical safety requirements without limiting the voltage. A device for switching a welding transformer, comprising a switching element, through which the primary winding of the welding transformer is connected to the clamps of the supply circuit, to the secondary winding of the transformer is connected to the output of a high-frequency pulse generator with transformer feedback and a start-up transformer. The device allows to fulfill electrical safety requirements without reducing the voltage in the welding circuit during the idle run of the welding transformer f1J. However, the device is difficult to manufacture, since the pulse generator contains a transformer necessary for generating feedback. In addition, a constant voltage source is required to power the generator. The closest to the invention in terms of performance and the result achieved is a device for automatically limiting the no-load voltage of a welding transformer, containing a switching element through which the primary winding of the welding transformer is connected to the input terminals of the device, a switching element control circuit, a starting signal transformer and a pulse generator consisting of a discharge element, a capacitor, a resistor and a rectifying element C2J. However, the known device does not satisfy the requirements of electrical safety without limiting the no-load voltage, as the frequency of the start-up pulses generated by the discharge of the capacitor through the primary winding of the welding transformer with a large inductance, is insignificant. The instability of the arc excitation is also insignificant, since only one trigger pulse is generated during the time of the positive half-wave of the supply voltage. The purpose of the invention is to increase electrical safety while improving the reliability of arc excitation. The goal is achieved by the fact that in the device for switching a welding transformer containing a switching element through which the primary winding of the welding transformer is connected to the input terminals of the device, the control circuit of the switching element, the starting signal transformer and a pulse generator consisting of a discharge element , a capacitor, a resistor and a rectifying element, the welding transformer is equipped with an additional winding located on the common inductor, with the first%. The extra winding degeneracy is connected to one input terminal of the device, and the second to the cathode of the discharge element, the anode of the latter through a resistor connected to the cathode of the rectifier element, its anode connected to another input terminal, the first capacitor plate connected to one input terminal and the second -g to the anode of the discharge element. The drawing shows a diagram of the device for switching the welding grasses of the formatter. A device for switching a welded transformer comprises a switching element 1, for example, a contactor included in the primary circuit of the welding transformer 2, a switching element control circuit 3, a starting current transformer 4 included in the welding welding transformer 2 of the transformer 2, and a pulse generator consisting of a rectifying element 5, the resistor 6, the capacitor 7 of the discharge element 8, for example, the dinistor, and the additional winding 9 of the welding transformer 2. The auxiliary winding 9 is made with small number of turns of the mounting wire. The device works as follows. In standby mode, the welding transformer is disconnected from the network. The pulse generator operates in self-oscillation mode, in this case the capacitor 7 is discharged to the additional winding 9 of the welding transformer 2. The pulse duration is determined by the parameters of the capacitor 7 and the additional inductance of the additional winding 9, and their frequency by the capacitor 7 and the resistance of the resistor 6. The magnitude of the resistor b is selected on the basis of obtaining several pulses during the time of action of the half-wave of the supply voltage. The arising voltage on the additional winding 9, whose amplitude is determined by the unlocking threshold of the charging element 8, is transformed into the secondary winding. When the electrode touches the product to be welded, current pulses appear in the welding circuit, which induce an emf in the secondary winding of the start-up current transformer 4. This EMF is the switch-on signal of the switching element 1 by the control circuit 3, through which the voltage-network is applied to the primary winding of the welding transformer 2 and the welding arc is ignited. When an arc breaks, the current in the welding circuit disappears and the voltage rises to 60–75 V. At the same time, the voltage at the input of control circuit 3 disappears. However, the signal at its output remains due to the shut-off time. If during the exposure time the arc does not re-excite, the control signal at the output of the control circuit 3 disappears and the switching, element 1 is turned off, the circuit is switched to standby mode. In the proposed device, the pulse generator capacitor is discharged to the non-pole inductance of the additional winding, as a result, human-safe short-term voltage pulses are induced in the secondary winding of the welding transformer. Their amplitude is equal to or can be higher than the no-load voltage of the welding transformer, and therefore the reliability of the excitation of the welding arc increases. The excitation margin of the welding arc is also increased by increasing the number of pulses generated by the generator during the action of the half-wave voltage. Thus, in comparison with the base object, a device for switching welding transformers allows to increase the electrical safety and reliability of the excitation of the welding arc.

Claims (1)

(5 4) (5 7) DEVICE FOR WELDING TRANSFORMER COMMUNICATIONS, containing a switching element through which the primary winding of the welding transformer is connected to the input terminals of the device, a switching element control circuit, a trigger signal transformer and a pulse generator, consisting of a discharge element, capacitor, resistor and a rectifier element, characterized in that, with the aim of increasing electrical safety while improving the reliability of excitation of the welding arc, the welding transformer is equipped with additional winding located on the common magnetic circuit, the first output of the additional winding connected to one input terminal of the device, and the second to the cathode of the discharge element, the anode of the latter through a resistor connected to the cathode of the rectifier element, its anode connected to another input terminal, and - The ® capacitor plate is connected to one input terminal, and the second to the anode of the discharge element.