SU879696A1 - Device for centralized protection from earthing in electric network with insulated neutral wire - Google Patents

Description

The invention relates to devices for centralized protection against earth faults in networks with a low earth fault current.

Known devices for centralized protection against earth faults with parallel indication of the maximum amplitude of the earth fault current, which, however, can operate selectively from interference signals flj. j

The closest to the claimed technical essence and the achieved effect is a device for protection against earth faults in networks with isolated and compensated neutral, containing a voltage transformer ₍ zero sequence TNNP, to the secondary winding of which is connected the starting body software, transformers. Zero sequence current TTNP, installed on the connections and connected through series-connected current converters into the proportional rectified voltage PTVN and integrate The main (memorizing) elements of IE to the inputs of the indicator of the highest voltage of the IC N, the executive bodies of the connections of the IE connected through the elements of coincidence with the output of the starting element and the outputs of the indicated indicator of the highest voltage.

The known device does not have sufficient selectivity when exposed to interference signals, and is also not sensitive enough.

. The aim of the invention is to increase the selectivity and sensitivity of the device.

This goal is achieved by the fact that the known device containing a zero-sequence voltage transformer, to the secondary winding of which a starting element is connected, zero-sequence current transformers installed on the connections and connected through series-connected current converters to the rectified voltage and integrating elements to the indicator inputs are the most- voltage, the executive bodies connected through elements of coincidence with the output of the starting body and the outputs of the indicator pa maximum voltage generator is provided with a linearly falling voltage, the output of which is connected to a further input of the entered maximum voltage indicator. niya, and the control input - to the output of the starting body.

The drawing shows a block diagram of a device.

The device contains TNNP 1, to the secondary winding of which is connected software 2; TTNP 3, 4, installed on connections 5, 6 and connected through series-connected PTVN 7, 8 and integrating elements 9, 10 to the inputs of IBN 11 on transistors, the outputs of which through the matching elements 12, 13_ are connected to IO 14, 15; generator ^ linearly incident voltage GLPN 16, the output of which is connected to the auxiliary input of IBN 11, and its control input is connected to the output of software 2.

The device operates as follows.

In the absence of a single-phase earth fault, PO 2, IO 14, 15 are in the initial state. An additional input (to the base of the lower transistor IBN 11) is supplied with a voltage of GLPN 16 with positive polarity, and its amplitude is maximum. The value of this voltage is selected more than the possible value of the interference signal.

If a single-phase earth fault occurs in the network, for example, at connection 5, ON 2 is triggered and the start of the HVDC 16 is carried out. The output voltage of the HVDC 16 starts to decrease according to a linear law. When the value of this voltage is less than the largest amplitude of one of the voltages supplied to the inputs of IBN 11 from the integrating elements 9, 10, the corresponding transistor opens, namely the one that is connected to the zero-sequence current transformer of the damaged one. a connection having, as a rule, the largest amplitude of the earth fault current. In the case under consideration, a transistor is opened, which is connected to the TTNP 3, and the IO 14 is triggered and the connection 5 is disconnected. Similarly, the device works when 5 is shorted to connection 6., When the device receives interference signals less than the voltage amplitude at the additional input of the IBN 11, none of the main 10 transistors of the IBN 11 opens and the device falsely does not work. Introduction to the device for protection.

from shorting to the ground of a linearly incident voltage generator connected to the auxiliary input of the highest voltage indicator, it allows more selective and sensitive protection, which helps to increase the reliability and electrical safety of power supply systems.

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Claims (2)

The 3 elements to the inputs of the indicator of the highest voltage, the actuating forces connected through the elements of coincidence with the output of the starting organ and the inputs of the indicator of the highest voltage, are equipped with a generator of linearly falling voltage, the output of which is. connected to the additionally inputted input of the highest voltage indicator, and the control input to the output of the starting organ. The drawing shows a block diagram of the device. The device contains a TNNP 1, the secondary winding of which is connected to software 2 TTPD 3, 4, installed on connections 5, 6 and connected through sequentially connected PTNV 7, 8 and integrating elements 9, 10 to the inputs of IBN 11 on transistors, the outputs of which through elements 12, 13, the matches are connected to the EUT 14, 15; generator of linearly falling voltage GLPN 16, the output of which is connected to the auxiliary input of IBN 11, and its control input is connected to the output ON 2. The device operates as follows. In the absence of a single-phase ground fault, the software 2, IO 14, 15 is in the initial state. At the additional input (at the base of the lower transistor IBN 11), a voltage of GLPN 16 with positive polarity is applied, and its amplitude is maximum. The magnitude of this voltage is chosen bop. Beyond the possible magnitude of the interference signal. When a single-phase power supply to earth occurs on the ground, for example, at connection 5, software 2 is activated and GLPN 16 is started. The output voltage of GLPN 16 starts to die linearly. When this voltage is less than the largest amplitude of one of the voltages inputted to inputs IEN 11 from the integrating elements 9, 10, the corresponding transistor opens, namely, the one connected to the zero-sequence current transformer having a As a rule, the largest amplitude of the current circuit is n ground. In this case, the transistor 6 is opened, which is connected to the TTPC 3, and the IO 14 is triggered and the connection 5 is disconnected. Similarly, the device operates when the connection is closed at 6. The signals on the device interfere with signals smaller than the amplitude of the voltage the input of IBN 11, none of the main transistors of IBN 11 is open and the device does not work falsely. The introduction of a linear-falling voltage generator connected to an additional input of the highest voltage indicator to a ground-closure protection device provides more selective and sensitive protection, which contributes to the reliability and electrical safety of power supply systems. The invention The device for centralized protection against earth fault in an electrical network with insulated neutral, containing a zero-sequence voltage transformer, to the secondary winding of which is connected a starting organ, zero-sequence current transformers installed on the connections and connected via serially connected current converters into rectified voltage and integrating elements to the inputs of the indicator of the highest voltage, the outputs of which are connected via The element coincides with the executive bodies of connections, characterized in that, in order to increase the selectivity and sensitivity of the device, it is equipped with a linearly falling voltage generator, the output of which is connected to the additional input of the higher voltage indicator, and the control input to the starting organ. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 319990, EL. And O2, and 3/28, 1966. 2, Zhzhtzhal Elekticheskne Stansh, No. 9, 1978, p. (progipyp).