SU805463A1 - Device for protecting electric equipment from single-phase earthing in balanced network twork - Google Patents

Description

The invention relates to electrical engineering, in particular to devices for relay protection of power lines.

Nowadays, devices that react to the components of the non-sawed frequency of zero-sequence currents in a steady state single-phase test on the ground are widely used: devices that operate when the signal exceeds the specified value (setpoint) of an absolute metering device, and devices by which A damaged attachment is determined by comparing the levels constituting the non-industrial frequency of all connections — the relative measurement devices l and 2.

Each of these devices has a number of advantages and benefits compared with the other: devices from -noo} gel measurement do not allow to determine the damaged connection. rather quickly and without the intervention of personnel, as is done with the help of absolute measuring devices t, in turn, the latter have significantly lower sensitivity compared to relative measuring devices due to the need to rebuild from the maximum level of the non-industrial frequency in external mode single-phase closure, for this reason, the selective operation area of the absolute measurement devices narrows as the range of level changes increases to a fraction of the frequency of While selective operation of relative metering devices is practically independent of the ratio of eMKOQTHbix connection currents, but it is provided under the condition that it is installed on all connections of zero-sequence current transformers.

A device is known which has the advantages of absolute and relative measurement devices, containing for each connection a fundamental frequency suppression unit (high harmonic filter) whose input is intended to be connected to

5 to the current transformer of zero sequence of connection, and the output to the reacting body, consisting of the common for all connections of the comparator unit and output actuators for each of the connections.

Claims (3)

0 The device simultaneously compares the levels of components of the frequency that are not completed and identifies the damaged connection at the highest level. Selective operation with high sensitivity of this device is ensured regardless of the ratios | Kost current connections at installation of the installation of current sequence zero transformers on all connections R. However, in reality, it is impossible to cover all the waste of 1 addition even in a number of cases. In addition, the busbars of the station or substation and the associated power transformers, generators and other elements of the network, with the likelihood of a ground fault, which also need to be considered, remain uncovered. In order to eliminate the false operation of the device in these cases, it is necessary to aggravate based on the occurrence of a ground fault on the uncovered part of the network at the maximum level of the components of the non-industrial frequency, i.e., reduce the sensitivity of the device to the LEVEL; the sensitivity of the devices is absolute beyond measure. The aim of the invention is to increase the reliability of operation and expand the functional capabilities of the device by implementing protection of connections that do not connect to the current inputs of the common comparison. This goal is achieved by the fact that a device containing, at least on a part of the connections, zero-sequence current transformers, the output of each of which is connected to the corresponding input of the comparator unit through the industrial frequency suppression unit, to the outputs of which the corresponding executive bodies are connected voltage of zero sequence, the input of which is connected to the electrical installation buses, and the output to the newly introduced differentiation unit and the sequence connected to it tion unit further suppressing the power frequency, which output is connected to an ad ditional input of said comparing unit, to a further output which is connected sootvetstvugatsy actuator. In addition, when using the device at one connection, the comparator unit is implemented as a null indicator. The drawing shows a block diagram of the device. The device contains in the circuit of each connection, connecting the south to the current input of the device, a zero-sequence current transformer 1 and a booster frequency suppression unit 2, the input of which is connected to the output of transformer 1. The device contains a zero-sequence transformer 3 whose input is connected to buses electrical installation, and the input - to the differentiating unit 4. The output of the unit 4 is connected to the input of the additional unit 5 of the industrial frequency suppression, whose input is connected to the additional input The comparison block, to the other inputs of which the outputs of said blocks 2 are connected. The device also contains the executive bodies 7, corresponding to the current inputs of the device, and an additional executive body. In case of using this device for protection of one connection, the comparison unit is made in the form of a null indicator connected by the difference of the output voltage modules of the voltage frequency suppression unit connected to the current input and the additional Frequency frequency pro1F block. The device works as follows. Since one more value is entered in the number of compared values, a differential block 4 is formed with adjustment of the derivative value and an additional block 5 of the main component, the output of block 4 has a signal whose value is equal to FBA, cos (U.4eJ ×, adjustment factor and, respectively, at the output of block 5 Kuj Snfu cosfhuut H., Vu. cos (nuut- Y, - I- bh / CАЦ Sc / J. This expression is identical (; to the expression for the zero sequence of intact connections after the suppression of the main component cosmvi) .. cos hU) tv-4 f Lfty, V According to pre Intended for the invention, the magnitude of field K is chosen to be greater than the largest capacitance C from the number of connections connected to the current inputs of the device. Then, when closing outside connections, connected to the current inputs of the device, an additional actuator 8 will operate, and the device will determine the input circuit, and this means that the closure occurred in the external network with respect to the connections connected to the current inputs of the device, and when e-1F1kanii on any the connection connected to the current inputs of the device will determine this connection f & K as in real networks always both K (C) is baked. Thus, the goal is to achieve a high sensitivity and selectivity of the device regardless of the number of connections connected to current inputs of the device, i.e., increased reliability of operation and expanded functionality of the device. Claim 1. Device for protection of electrical installation from single phase for F kani / to earth in a compensated network, with at least part of the connections connected, current transformers of zero potential, the output of each of which is connected to the corresponding input of the comparative frequency unit through the suppression unit whose exits. Corresponding executive bodies are distinguished, characterized in that, in order to improve the reliability and functionality of the device by protecting connections that are not connected to the current inputs of the comparator, the zero-sequence voltage transformer is additionally connected to the buses electrical installation, and the output to the newly introduced differentiation unit and the successively connected additional suppression unit the frequency of the transmission, the output of which is connected to the auxiliary input of the mentioned comparison unit, to the auxiliary output of which is connected the corresponding executive unit. 2. The device according to p. 1, about t l and -. Of course, in order to use it on a single connection, said comparison unit is designed as a null indicator. Sources of information taken into account in the examination of 1.Kiskachi V.M. and Nazarov Yu.G. Determination of the damaged attachment of an x to the ground in cable networks of the Electric Networks, 1965, 7. 2.Kiskachi V.M. Selectivity of signaling earth faults using higher harmonics of zero-sequence currents. Electricity, 1967, No. 9. 3. USSR author's certificate number 384172, cl. H 02 H 3/16, 1973.