RU2024150C1 - Arc surge protection device for insulated neutral networks - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: in case of steady burning arc at ground fault, after a certain delay, additional active current is applied to place of fault. For this purpose introduced additionally into device, which has single-phase transformer, resistor, switch and control unit, and additional secondary winding of single-phase transformer, are resistor with switch and device connected to secondary winding of single-phase transformer parallel to main resistor with switch, second AND gate and TIME and NOT gates. EFFECT: enhanced reliability of protection. 1 dwg

Description

 The invention relates to electrical engineering, and can be used in networks of 6-35 kV with isolated neutral to increase the reliability and selectivity of protection against earth faults.

 The invention closest in technical essence [1] describes a device containing a single-phase transformer and a resistor in the secondary circuit of a transformer connected via a switch equipped with a control unit, threshold blocks, a damaged phase selection unit, and circuit I.

 In this device, protection against arc overvoltages is carried out by switching the resistance to neutral after the next extinction of the alternating arc, and the application of the active current from the resistance to the place of damage does not occur, which increases the reliability of power supply.

 It is known that to increase the sensitivity of relay protection against earth faults, neutral grounding through a constantly connected active resistance is used. In this case, the value of the active resistance can be selected in such a way that an additional active component of the current is applied to the place of damage, which is sufficient for reliable operation of even a coarse relay protection in any arc burning mode. In the device [1], the resistance is switched on in pauses between successive ignitions of an alternating arc, and with a stable arc, the automation is blocked and an additional active current does not occur at the fault location, which can reduce the sensitivity of relay protection.

 Ensuring the limitation of arc surges according to [1] while performing the function of increasing the sensitivity of relay protection is achieved by the fact that the device for protection against arc surges containing a single-phase transformer, the primary winding of which is connected between the neutral and ground, and the resistor is connected to the secondary winding through a switch equipped with a control unit connected to the output of the AND logic circuit, the inputs of which are connected to the outputs of the threshold blocks associated with the neutral voltage through an additional The winding on the secondary side of a single-phase transformer and the voltage of the damaged phase through the damaged phase selection unit is equipped with an additional neutral resistor with a switch, its control device, the "Time" element, the NOT circuit and an additional circuit I. Moreover, the input of the circuit is NOT connected to the damaged threshold unit phase, and its output - with one of the inputs of the AND circuit, the second input of which is connected to the output of the neutral neutral block. The output of the additional circuit And through the element "Time" is connected to the input of the control device with an additional resistor.

 The application of an active current from an additional resistor sufficient to activate the relay protection is advisable only for a sufficiently long stable burning of the arc, when the probability of self-extinguishing of the arc is small, therefore, the control device turns on the additional resistor after a certain time delay provided by the "Time" element. The regime of stable arc burning is revealed by the simultaneous existence of two signs: the presence of voltage on the neutral and the absence of voltage on the damaged phase. To identify this mode, a neutral voltage is applied to one input of the And circuit through the threshold block, and the voltage of the damaged phase to the other input through the NOT circuit, which ensures the appearance of the signal from the output of the And circuit only when the phase is shorted to ground. Elements "Time" is used to detuning from short-term self-eliminating earth faults, and during protection operation, the signal can also be used to disconnect the resistor after an alarm is triggered in order to prevent excessive damage to the damage site.

 The drawing shows a diagram of a device for surge protection.

 The device contains a single-phase transformer 1, a resistor 2 in the secondary circuit of the transformer 1, a switch 3, an additional winding 4 on the secondary side of a single-phase transformer 1, threshold blocks 5 and 6, a block 7 for selecting a damaged phase, a logic circuit And 8, block 9 control switch 3 , an additional resistor 10, a switch 11 for connecting it, an AND circuit 12, an element of "Time" 13, a control unit 14 of the switch 11, a circuit NOT 15.

 The primary winding of the transformer 1 is connected between the neutral and ground, the resistor 2 is connected to the secondary winding through the switch 3, equipped with a control unit 9, the input of which is connected to the output of the circuit And 8. One input of the circuit And 8 is connected to the neutral voltage through the additional winding 4 and the threshold block 5, the other with the voltage of the damaged phase through the threshold block 6 and block 7 of the selection of the damaged phase.

 The outputs of the circuit And 12 are connected to the neutral voltage through the threshold block 5 and to the circuit NOT 15 connected to the voltage of the damaged phase through the block 7 of the selection of the damaged phase and threshold block 6.

 The output of the circuit And 12 is connected to the input of the element "Time", the output of which is connected to the control device 14 of the switch 11 for connecting an additional resistor 10.

 The device operates as follows.

 In the normal mode, in the absence of a short to ground, the phase voltages relative to the ground are close to the rated voltage, and the neutral voltage is small in magnitude, and therefore the signal from the output of the threshold unit 5, the set point of which is selected according to the condition of detuning from the normal mode, to the inputs of circuits And 8 and 12 not coming. In this case, there is no signal at the input of the control unit 9, the switch 3 is locked and no current flows through the resistor 2. At the output of circuit And 12, there is no signal, the switch 11 is locked and no current flows through the resistor 10.

 In an arc short circuit, after each ignition of a moving arc, a voltage periodically appears on the winding 4, proportional to the voltage of the network neutral, exceeding the threshold block 5 setting, and the output signal goes to the first input of circuit I. 8. At the same time, the output of the damaged phase selection block after the next arc ignition the voltage becomes less than the setting of the threshold block 6, and after the extinction of the arc exceeds it after some time, due to the speed of voltage recovery in the damaged phase, and goes to the second the input of the And 8 circuit. The signal from the output of the And 8 circuit appears when there are signals at both its inputs, goes to the input of the control unit 9 and ensures the existence of a trigger pulse until one of the signals at the input of the And 8 circuit disappears. there will be no signal at the output of the circuit NOT 15, the circuit And 12 does not work and the resistor 10 is not connected to the neutral.

 If the arc burning mode becomes stable, then if there is a neutral voltage exceeding the threshold block 5 setting and no voltage is present in the damaged phase, there is no signal at the output of block 6, and logical “1” appears at the input of block 15, therefore, on both the inputs of the circuit And 12 will be a logical "1", and its output will also be a logical "1", which will start the element "Time" 13, which, after a set time, will send a signal to the control device 14, including the switch 11, and an additional active current per month of damage that will ensure reliable operation of relay protection. In this mode, there will be no signal at one of the inputs of the AND 8 circuits, unit 9 does not work and switch 3 is locked.

 The proposed device allows for the selective operation of even simple roughened current protection against earth faults. Moreover, the action of the proposed device occurs only in those cases when self-extinguishing of the arc is unlikely, which increases the reliability of power supply.

Claims (1)

 DEVICE FOR PROTECTING FROM ARC OVERVOLTAGES IN A NETWORK WITH INSULATED NEUTRAL, containing a single-phase transformer, the primary winding of which is connected between the neutral and ground, and a resistor is connected to the secondary winding through a switch equipped with a control unit, an additional secondary winding is connected to the control unit, and the secondary secondary winding to the control unit the output of the logical element AND, to the inputs of which the outputs of the threshold blocks are connected, respectively connected to the block for selecting the damaged phase and add secondary winding of a single-phase transformer, characterized in that it is equipped with an additional resistor with a switch and its control device connected to the secondary winding of a single-phase transformer parallel to the main resistor with the switch, the second logical element AND, logical elements TIME, NOT, and the control device of the additional switch is connected the input to the output of the second element AND through the element TIME, one of the two inputs of the second element AND is connected to the output of the threshold block, under connected to an additional secondary winding of a single-phase transformer, and the other through the element is NOT connected to the output of the threshold block connected to the block for selecting the damaged phase.

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