SU998040A1 - Apparatus for turning-on welding current rectifier - Google Patents

Description

The invention relates to welding production, in particular to devices for inserting a welding rectifier that automatically limits the no-load voltage of the latter.

A device for switching on a welding rectifier containing a current relay, whose cathode is included in the welding circuit, a source of safe DC voltage, a main switch, contacts of which are included in the power supply circuit of the welding rectifier, an intermediate switch, the control circuit of which is connected to a safe source, is known. voltage, and its contacts are included in the control circuit of the main switch and capacitive delay circuit connected in parallel with the control circuit of the intermediate switch | 13.

The disadvantage of this device is the low reliability of its operation, due to the fact that the intermediate switch entering the device contains a control circuit made of only one winding, the voltage to which is supplied when the arc gap is fully closed

at the output of the welding rectifier, and when the arc is ignited, the operation of the intermediate switch depends on the state of the current relay and does not directly control the voltage and current at the output of the rectifier.

It is also known a device for turning on 10 a welding rectifier, in which the intermediate switch is made double-winding with a current winding and a voltage winding connected to a non-winding voltage source. The presence of two. the coil in the intermediate switch allows active monitoring of the output parameters of the supercurrent rectifier both when the arc is closed and during the pro. maintenance and termination of the welding process, which increases the reliability of the process. bots device 2.

The disadvantage of this device 25 is the inertia of its operation, due to the fact that when it is used, switching on the welding rectifier is possible only with a long time of contact of the 30 electrode with the product. This significantly reduces the speed of the device.

The aim of the invention is to increase productivity by increasing the speed of the device.

The goal is achieved by the fact that in a device for switching on a welding rectifier containing a current relay whose coil is included in the welding circuit, a source of safe DC voltage, a main switch, which contacts are included in the power supply circuit of the welding rectifier, a two-winding intermediate switch with a current winding and voltage winding connected to a source of safe voltage, and contacts connected to the control circuit of the main switch, which is connected to a source of safe voltage and and the capacitive delay circuit connected in parallel to windings of the intermediate switch dvuhdiod- introduced. disconnecting element, with the intermediate switch coils connected in series, the beginning of the current coil. connected to one of the safety source leads to the yarn, the end of the voltage winding through the current contacts connected to another output of the source of safe voltage and A mittel, one of the diodes of the two-diode isolation element is connected in parallel with the voltage winding of the intermediate switch Estrings current flow from a source of safe voltage, and the other diode is between that the interconnection of the windings of the intermediate switch and the point of connection of the coil of the current relay with the output of the rectifier welding counter to the latter.

The drawing shows a diagram of a device for switching on a welding rectifier.

The device contains a welding rectifier 1, the primary circuit of which includes the main switch 2, and the current circuit in the welding circuit: relay 3, which includes a coil 4 made of several turns of the welding circuit, inside which is placed a magnetic contact 5, an additional source of safe voltage consisting of a transformer 7 and a rectifier 8, the output of which is connected through the limiting resistance 9 to the current winding 10 of the double-winding intermediate switch 11 and through the diode 12 of the diode to the positive field Su welding rectifier 1. Voltage winding 13 two-turn-through intermediate switch 11 and diode 14 connected in parallel with it

The links are connected through the open contact 5 of the current element 3 to the negative pole of the welding rectifier 2 and an additional source of safe voltage. b. Parallel to the windings of the switch 11, a capacitor 15 is turned on. A normally open contact 16 of a two-winding switch-torus 11 is connected to the control circuit of the Main switch 2.

The device works as follows

In idle mode, the welding rectifier 1 is disconnected from the power supply network by the main switch 2, while there is no current in the winding of the current relay 3, there is a safe stand-by voltage from the power source b consisting of the transformer 7 and the rectifier 8 on the open electrodes. This safe voltage enters the welding 1pth through the limiting resistance 9, the current winding 10 of the two-winding switch 11 and the diode 12, with the + additional power source 6 being connected to the positive terminal of the welding rectifier 1.

When the welding electrodes are shorted from a safe duty voltage, current flows through the circuit + power source b, limiting resistance 9, winding 10 of double-winding intermediate switch 11, diode 12, winding 4 of current relay 3, welding electrodes, - an additional power source. In this case, the two-winding switch 11 instantly works, closes its normally open contacts 16 ,. with which the switch 2 connects the welding rectifier 1 to the mains. Thus, the full voltage of the welding rectifier will be applied to the welding electrodes until the contacts of the current relay are closed. In addition, the current of the relay 5 of the current relay 3, which causes connect the winding 13 of the two-winding switch 11, the diode 14 and the capacitor 15 to an additional power source. Thus, the charge current of the kendensator 15 flows through the circuit: + an additional power source, a capacitor 15, a diode 14, a diode 12, a winding 4, and through welding electrodes to an additional power source. For the entire welding period, the contacts 16 of the two-winding switch 11 are maintained in a closed state by winding 13 of the relay 11, which feeds along the following circuit: an additional power source b, limiting resistance 9, windings 10 and 13, two-winding magnetic-controlled relay 11, pin 5 current relay 3 and - additional power supply. In this case, the isolation by voltage between the additional power source and the voltage of the welding rectifier is provided by a diode 12.

When welding stops, the current in the welding circuit, and consequently, in the winding 4 of the current sensor 3 disappears, contact 5 of the current sensor turns out 3 times, and the capacitor 15 discharges to the winding 13 of the double-winding switch 11, thereby maintaining for some time a closed state, which provides the necessary time delay for the removal of the operating voltage from the electrodes after the termination of welding.

The limiting resistance 9 is necessary for limiting the current in the circuit of the additional power source in the mameg-circuit of the electrodes when the arc is excited.

Thus, in comparison with the known device, due to the inclusion of the windings of the intermediate switch and the presence of a diode junction connecting the windings of the intermediate switch with the outputs of the welding rectifier and the source of a safe connection, the device’s performance has increased significantly, which leads to an increase in the productivity of the welder

Claims (2)

1. USSR author's certificate  497108, cl. At 23 K 9/10, 19.04.74. 2. Labor safety in industrial-. 40, 1970, 10, p. 49.50 (prototype).