SU1069965A1 - Welders' protection arrangement - Google Patents

Abstract

DEVICE PROTECTION OF THE WELDER, containing emergency and main switches in the supply circuit of the welding transformer, phase control system of the main switch, current transformer with two outputs, included in the welding circuit, the first time relay, whose input is connected to the first output of the current transformer, and output the phase control system, the protection relay, the output of which is connected to the emergency switch, the second time relay, the output of which is connected to the protection relay, the power supply unit and the control signal generating circuit, -, a holding diode,., a resistor and two threshold elements, characterized in that, in order to maintain reliability of the plate by providing control of the earthing of the welding circuit and the device body, the de-energizing element and the low-frequency amplifier were added to the control signal, the input of the time delay element is connected with the output of the first threshold element, and the output with the low frequency input yc and jmt and through a resistor with the input of the first threshold element and the cathode of the diode, the anode of which is associated with The secondary end of the welded TpaHc opftaTOpa secondary winding, while the output of the low-frequency amplifier is connected with the input of the second threshold element and the second output of the current transformer.

Description

The invention relates to welding production, in particular, to devices for automatically reducing the no-load voltage of welding transLormators used in manual arc welding.

A device for idling voltage of a welding current source is known, comprising emergency and main switches, a current transformer in the welding circuit, a limiter time relay, a protection relay, a protection time relay, a power supply unit and a discrete protection element tU.

The disadvantages of this device are the lack of control of the grounding of the welding circuit and the details and the high inertia of the circuit when triggered. The lack of grounding control reduces the protective functions of the device, which prevents the accident of accidental contact with mains voltage. In the welding circuit, the device case or on the part to be welded.

The closest technical solution to the present invention is a device for limiting the no-load voltage of a welding transformer, containing, emergency and main switches in the supply circuit of the welding transformer, a phase control system of the main switch, a two-output current transformer included in the welding circuit, a time relay limitation, the input of which is connected to one of the outputs of the current transformer, and the output is connected to the system of the phase control, a protection relay that controls the emergency switch, the relay time The protection unit, the KOTOjSoro output is connected to the protection relay, a power supply unit and a control circuit, a signal circuit comprising a diode, a resistor and two threshold elements, the output of which is connected to the output of the time relay C21.

The known device is also characterized by the lack of control over the grounding of the welding circuit and the casing of the device itself, which reduces its protective properties. This is due to the fact that the device does not have elements that react to these malfunctions.

The purpose of the invention is to increase the reliability of protection by ensuring the monitoring of the grounding of the welding circuit and device body

This goal is achieved by the fact that in the welder protection device, containing the emergency and main switches in the welding transformer chain, the phase control system of the main switch, the current transformer with

two outputs included in the welding circuit, the first time relay, whose input is connected to the first output of the current transformer, and the output to the phase control system, the protection relay, the output of which is connected to the emergency switch, the second time relay, the output of which is connected a protection relay, a power supply unit and a shaping circuit, no control signal, a diode, a resistor and two threshold elements, an additional time pulse element and a low-frequency amplifier are added to the control signal shaping circuit, and The time is connected to the output of the first threshold element, and the output is connected to the input of a low-frequency amplifier and through a resistor to the input of the first threshold element and the cathode of a diode, which is connected to the non-grounded end of the secondary winding of the welding transformer, at. This output of the low frequency amplifier is connected to the input of the second threshold element and the second output of the current transformer.

The drawing shows a functional diagram of the welder protection device.

The device - protection s.arika. Contains emergency 1 and main 2 switches in the supply circuit of welding transformer 3, system 4 phase control of main switch 2, transformer 5 current With two outputs, included in the welding automatic circuit, first time relay 6, the input of which is connected to one of the outputs of the current transformer 5, and the output to the system 4 of the phase control, protection relay 7, controlling the emergency switch 1, second time relay 8, the output of which is connected to the protection relay input 7, power supply unit 9 - powering all units stroystva and circuit 10 generating a control signal, the output of which is coupled to the input of the relay 8 time. A control signal generation circuit 10. consists of a diode 11, an anode connected to an ungrounded clamp of the secondary winding of the welding transformer 3, and a cathode to a resistor 12 and the input of the first threshold element 13, the output of which through time delay element 14 is connected to the input of a low-frequency amplifier 15, the output of which is connected to the input the second threshold element 16. The resistor 12 connects the input of the low-frequency amplifier 15 to the diode 11 and the input of the first threshold element 13. The second output of the current transformer 5 is connected to the water of the second

of the threshold element 16. In addition, the electrode 17 and the welded part 18 are shown in the diagram.

When voltage is applied to the welding unit, voltages appear at the outputs of power supply unit 9, which are supplied to the 4-phase control circuit, limiting time relay 6, protection relay 7, protection time relay 8 and circuit 10. Time output 8 protection appears a signal that puts the protection relay 7 and the emergency switch 1 on. At the same time, a signal appears at the output of the time relay 6, which puts the phase control system 4 in a position where the main switch 2 is completely is open. Welding transformer 3 is supplied with net voltage mains,. therefore, at its output there appears a full idle voltage of 6575 V, which exists for the entire duration of the holding of the relay 6 for the limiting time (up to 1.0 s). Scheme 10 during this time monitors the health of the device. The voltage of the welding circuit through the diode 11 is fed to the input of the first, threshold element 13 and through the resistor 12 to the input of the low-frequency amplifier 1. Since the first threshold element 13 has a response threshold of 35-40 V, in this case it works, a voltage appears at its output, which leads to the appearance of a constant voltage at the output of the time delay element 14. The amplifier 15 is low-frequency. Switches to the saturation mode, so the signal at its output disappears, which puts the relay 8 time in the timing mode timing. If the device is working properly, at the output of the relay 6 of time no later than 1.0 s from the moment the voltage is applied to the circuit, the signal will disappear, which puts the basic control system 4 in cut-off mode. This leads to unlocking of the main switch 2 only at the end of each half-cycle of the mains voltage. In the welding circuit, pulses appear with an amplitude of about 30 V. This voltage is not enough to unlock the first threshold element 13. The signal at its output disappears, which leads to the disappearance of the signal after 0.02 s at the output of the element 14 time delay. The offset at the input of the low-frequency amplifier 15 disappears, so it amplifies the signals supplied to its input from the voltage of the welding circuit through the diode 11 and the resistor 12. At the output of the low-frequency amplifier 15, pulsed signals appear that are converted by the second threshold element 16 into a signal. rectangular-shaped ly supplied to the input of the relay 8. protection time. It remains in the closed position for the entire time of a limited idle.

In welding mode, the voltage in the welding circuit ranges from O. to 45 V. Therefore, when welding

o the elongated arc did not cause a false disconnection of the device; the input of the second threshold element 16 is supplied with the voltage of the second output of the current transformer 5. In that

5 case is battling. the first threshold element 13 and the voltage at the output of the low frequency amplifier 15 disappears. However, the input of the second threshold element 16 is supplied with voltage from the current transformer 5, therefore,

0, the signal at the output of the second threshold element 16 is retained during welding. The protection time relay 8 remains on for the entire welding time.

When the relay of the limitation time 6, the phase control system 4 or the main switch 2, connected with the appearance of an overvoltage of more than 35 V in the welding circuit, triggers the first threshold element 13, which, through the time delay element 14, gives an offset to the input of the amplifier 15 low frequency. Therefore, although the signals to the input of the low-frequency amplifier 15 through the diode 11 and the resistor 12 are received, the signal at the output of the amplifier 15 disappears. No signal at idle

0 and at the output of the transformer 5 current. The absence of a signal at the input of the second threshold element 16 leads to the disappearance of the signal at the input of the relay 8 time. After a time more than 1.0 s, the output signal disappears.

5 of this relay. The protection relay 7 turns off, removes its control signal. Emergency switch 1 is also turned off, removing the voltage from the welding installation.

0

Similarly, the emergency switch 1 is disconnected when the insulation resistance of the welding circuit decreases or if a person with a low

5 body resistance.

The earthing of the welding circuit is performed by reducing the no-load voltage across the circuit.

0 ungrounded clamp of the secondary winding of the welding transformer 3 diode 11 - resistor 12 - input of the amplifier 15 low frequency - bus device case - ground - grounded clip of the secondary winding of the shaft5

Claims (1)

WELDER PROTECTION DEVICE, containing emergency and main switches in the power supply circuit of the welding transformer, phase control system of the main switch, a current transformer with two outputs included in the welding circuit, the first time relay, the input of which is connected to the first output of the current transformer, and the output is connected to the system phase control, protection relay, the output of which is connected to the emergency switch, a second time relay, the output of which is connected to the protection relay ', the power supply and the control signal generation circuit, a diode,., a resistor and two threshold elements, characterized in that, in order to influence the reliability of protection by providing control of the grounding of the welding circuit and the housing of the device, a time delay element and a low-frequency amplifier are additionally introduced into the control signal generation circuit, and the element input the time delay is associated with the output of the first threshold element, and the output with the input of the low-frequency amplifier and through a resistor with the input of the first threshold element and the cathode of the diode, the anode of which is connected to the non-grounded end the secondary winding of the welding transformer, while the output of the low-frequency amplifier is connected to the input of the second threshold element and the second output of the current transformer. "SU ..." 10699.65>