SU904065A1 - Device for centralized protection from earthingin the network with insulated or compensated neutral wire - Google Patents

Description

() DEVICE FOR CENTRALIZED PROTECTION

FROM CIRCUIT TO GROUND ON A NETWORK WITH ISOLATED OR COMPENSATED NEUTRAL

The invention relates to electric power industry and is applicable in radial electric networks with insulated or compensated neutral for finding damaged connections with single-phase or double ground connections.

Devices for protection against earth faults are known, based on the use of naturally occurring higher harmonic components of steady-state current, containing switching elements, filters, measuring device 1}.

The possibility of using such devices is limited by the dependence of the composition and levels of higher harmonics on the mode of operation of the network, the nature of the load, and the transition resistance. In addition, these devices do not allow fixing short-term ground loops.

In radial sets of dL protection against earth fault and finding

the damaged element uses a device based on comparing the amplitude of the transient currents in all connections, containing matching elements, a switch, a measuring unit and the executive bodies 21.

Claims (2)

However, such devices without the use of special measures do not allow fixing the closure on the tires; they are not always applicable to networks with a low current ratio in the damaged and intact connections. To set up protection 8 for most networks, a special choice of parameters and adjustment of matching elements that convert the primary currents to commensurate voltages are required. In some cases, the choice of parameters of matching elements on the condition of ensuring selectivity can lead to an unacceptable decrease in the sensitivity of the protection as a whole. All this limits the use of these devices. The purpose of the invention is to increase the sensitivity of the earth fault protection. This goal is achieved in that a device for centralized earth fault protection, containing zero-sequence current transducers connected at each protected connection, connected via matching elements to the switch inputs of measuring signals, an actuator, as well as serially connected voltage transducer zero sequence, starting body and control device, the output of which is connected to the control input of the decree the measured signal switchboard, the logic block for the analysis of the faulty connection, the setpoint switchboard, the signal switch of the comparison results, the setpoint block, the memory block, as well as the sequentially connected division block, the subtraction block, the module generating unit and the block block, and two inputs the divider is connected to two switch outputs of the measured signals, the outputs of the setting block, the number of which is determined by the number of protected connections, are connected to the second input of the subtractor through the switch switch , The comparator output via a series connected switch signals result Cf. Neny block memory and said logic unit pdklyucheny to the actuator body, and an output connected to the control ustroyst further control input of the switch signals the comparison result and the switch settings. The comparison unit contains a series-connected comparison element with a constant and an analog-to-discrete converter. The drawing shows the functional diagram of the device. The device contains measuring transducers 1 of zero sequence current, connected through the connecting elements 2 to the inputs of the switch 3 of the measured signals, the outputs of which are connected to the inputs of the remote control. The outputs of block 5 of settings through the switch 6 setpoints are connected to the second input of subtraction unit 7, and the output of block k is connected to the first input of block 7. The output of block 7 is connected to a module forming unit 8 connected in series with a comparison element 9 with a constant and an analog-discrete converter 10. The output of converter 10 through the switch 11 of the comparison result signals is connected to the inputs of the comparison result signal storage unit 12. The output of block 12 is connected to the logic block 13 for analysis of the damaged connection, and the outputs of block 13 are connected to the executive unit. The zero-order voltage transmitter 15, the starting element 16 and the control device 17 are connected to the control inputs of the switches 3, 6 and 11. The comparison element 9 with a constant and the analog-discrete converter 10 form a comparison unit 18. The device works as follows. When an earth fault occurs at the output of the measuring transformer 15 of the zero sequence voltage, a signal appears causing the trigger body 16 to operate. The trigger body 16 indicates the control device 17, which in turn outputs a signal to one of its outputs. This signal controls the operation of the switches 3, 6 and 11. Simultaneously with the occurrence of the signal at the output of the zero sequence measuring transducer 15, voltages appear at the outputs of the zero sequence current measuring transducers 1, which are converted by matching elements 2 into constant voltages and stored. The conversion factors of the zero sequence of the connections in the voltage in the general case are different for different connections of the network, but do not require matching: as in the comparison of amplitudes. The switch 3 of the measured signals under the influence of the control signal supplies the input to the dividend and the input to the divider of the voltage d-division block k, corresponding to the zero sequence currents of two adjacent connections. The result of the division from the output of the block is fed to the input of the decremented subtraction unit 7. In block 5 of the settings, the voltages of the settings C are preliminarily formed according to the expression Sip Ji + iHn where U: -, UU .np the voltage on the leads of matching elements are adjacent to the intact ground fault connections. The switch 6 of the settings, under the influence of a signal received from the control device 17, supplies the UijcT signal from the i-ro output of the setting block 5 to the input of the subtraction block 7 subtraction. In block 8, a difference signal module is generated, which comes from the output of subtracting block 7. In block 9, the difference signal module is compared with a constant, which takes into account the permissible errors in the actual conversion of input signals. If the modulus of the difference signal is greater than the constant, then the analog-discrete converter 10 generates a comparison result 1 signal at its output (mismatch signal), otherwise it is O. The switch 11 of the comparison result signals under the action of the signal received at the control input from the device 17 control, transmits a signal from the output of block 10 to the corresponding cell of block 12 of the memory of comparison results. From the outputs of block 12 signals С,, ..., Ci, ... , Cv, are in parallel supplied to the logical block 13. If the mismatch signals (1) occur in two adjacent cells, then the cause of their occurrence is the value of the signal that does not correspond to the intact state of the connection. Therefore, the connection is damaged. If the mismatch signals are in the 3 adjacent i-2 cells; i-1; i, then i and (i-1) connections are damaged (double closure) -. In order to avoid false action of the device when a double circuit is connected to i and (i-2) connection, a blocking is provided in logic unit 13, taking into account that the executive signal supplied from the i-ro output of block 13 to the i input of block k is formed by the expression Cisp1 Ct l l Ct-2 l CL l Executive signals are finally formed after the termination of the operation of control block 17. The device is returned to its original state manually by sending a signal to Reset to the memory 12 of the comparison results. Using a comparison of the amplitudes of the signals of the Neighboring connections with a setpoint and subsequent logical processing allows the protection to function in networks with a low current ratio in the damaged and intact connections, to increase the sensitivity of the protection, since there is no need for an artificially low conversion factor for individual connections for to ensure selectivity, as is the case when comparing the amplitudes of the signals between each other, to fix both damaged connections Neni by double earth fault. Claim 1. Device for centralized protection against earth faults in networks with isolated or compensated neutral, containing zero-sequence current transducers connected at each protected connection, connected through matching elements to the switch inputs of the measured signals, actuator, as well as sequentially a zero-sequence voltage measuring transducer, a triggering device and a control device, the output of which is dklyuchen to the control input of said switch measured emyh.signalov about ich t l and U u e 6 in that, in order to increase sensitivity, introduced logical analysis unit damaged addition, the setting switch; the switch of the comparison result signals, the setting block, the 7th memory block, as well as the serially connected dividing block, the subtraction block, the module generating unit and the comparison block, take two inputs of the dividing block connected to two switch outputs of the measured signals, the set block outputs the number of which is determined the number of protected connections, through the switch settings connected to the second input of the subtraction unit, the output of the comparison unit through the serially connected switchboard signals, the result of the comparison, the memory unit and decree This logic unit is connected to the executive unit, and the output of the control unit is connected in addition to the control inputs 8 of the switch of the comparison results signal and the set switch. 2. A device according to claim 1, characterized in that the comparison unit contains a comparison element with a constant and an analog-discrete converter. Sources of information taken into account in the examination 1. Kiskachi V.M., Surtseva S.E., Gorshenina N.M., Panfilov P.I. Signaling devices. Grounding. - Electric stations, 197., f. . 2. USSR author's certificate N- 162208, cl. H 02 And 3/16,