SU995187A1 - Device for single-phase earthing in network with insulated neutral - Google Patents

Description

(54) DEVICE FOR PROTECTION AGAINST A SINGLE-PHASE GROUND ON GROUND IN A NETWORK WITH ISOLATED

one

The invention relates to electrical engineering, in particular to devices for protection against single-phase closure. to earth in a network with a small current circuit to earth.

A device for protection against earth fault, containing zero-sequence current transformers installed at each connection, the secondary windings of which are connected to reacting elements through current transformers connected to reacting elements, the starting element connected by its input to voltage transformer is connected to current transformers. The sequences (TNNP), the executive bodies connected through the elements coincide with the outputs of the reacting elements and the output of the starting organ 1.

A disadvantage of this device is the possibility of non-selective actuation from surges of its own capacitive currents, which in magnitude can be commensurate with the total ground fault current. Detuning from these currents is associated with a deeper protection, i.e. with a decrease in its sensitivity, and can lead to failures in response;

NEUTRAL

Closest to the proposed technical entity, is a device for protection against earth faults, containing TNCs installed at each connection and having two secondary windings 5: working and magnetizing connected to the inputs of the reacting elements, the outputs of which are connected to the actuators through the elements organs. To the second inputs of the elements And connected starting body voltage of zero sequence 2.

The disadvantages of the known device are low sensitivity and selectivity ..

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

Claims (2)

The goal is achieved by the fact that a device containing TTPPs with two secondary windings installed at each connection: working and magnetizing, reacting elements connected by their inputs to the working windings of current transformers, common to all the connections is a biasing unit that energizes the bias windings, starting organ its input connected to the TNNP, and output - to the first inputs of the elements And, the second inputs of which are connected to the outputs of the corresponding reacting elements, the outputs of the elements And Connected to the inputs of the respective actuators acting on the shut-off coils, entered connected to the control input of the bias unit, which is made adjustable, the bias control unit, performed on the elements NOT LIMITED MEMORY, and the correction unit, while the correction unit is NOT, AND OR elements by the number of connections and the total for all connections of the adder of the response signals of the reacting elements with a threshold element at the output and locking keys the inputs of the adder, the control inputs of which are connected to the outputs of the executive bodies, and the output of the threshold element are connected to the first input of the biasing control unit and to one of the inputs of the And elements, the second inputs of which are NOT connected to the outputs of the corresponding reacting elements, the outputs of the And elements through the OR elements are connected to the control inputs of the executive bodies, the second inputs of the OR elements are connected to the second output of the control unit, which is the output of the element NOT control units magnetization,. which is connected to the control input of the element LIMITED MEMORY of the magnetization control unit, whose input is the first input of the control unit of the magnetization. The output of the element LIMITED MEMORY is the first output of the control unit of the magnetization, the second input of which is the element input NOT connected to the output starting body. The drawing shows a diagram of the device. The device contains TTPPs 3 and 4 installed at connections 1 and 2 with two secondary windings: workers 5 and 6 and magnetizations 7 and 8, reacting elements 9 and 10 in the form of current, AC relays, whose inputs are connected to secondary workers windings 5 and 6, a starting body 11 connected by its input to one of the secondary windings of TNNP 12 connected in an open triangle scheme, executive bodies 13 and 14 with memory elements, the inputs of which through elements 15 and 16 are connected to the outputs of reacting elements 9 and 10 and to the launch of the launch op ana 11, and the outputs to the disconnecting coils 17 and 18, a biasing unit 19, the main input of which is connected to the secondary winding of a voltage transformer 12 connected in a star circuit, and an output to the bias windings 7 and 8, a biasing control unit 20, one from the outputs of which is connected to the control input of the block 19, and the inputs are connected to the outputs of the starting body 11 and the correction block 21, the inputs of which are connected to the outputs of the reacting elements 9 and 10, the executive bodies 13 and 14 and one of the outputs of the control block 20, and the outputs are connected control inputs of the actuators 13 and 14. The control block 20 consists of elements NOT 22 and LIMITED MEMORY 23. Correction unit 21 contains elements NOT 24 and 25, AND 26 and 27, OR 28 and 29, threshold element 30, adder 31 and closing switches 32 and 33. The device operates as follows: In the absence of a single-phase ground network connection, the reacting elements 9 and 10, the starting element 11 and the executive bodies 13 and 14 are in the initial state. The voltage at the output of block 19 has a nominal value, for example, UO B. Setpoint of reacting elements 9 and 10 is accepted as minimum. When a single-phase ground fault occurs in the network, for example, at attachment 1, the reacting element 9, the starting element 11 and the actuator 13 and after a short delay equal to the intrinsic disconnection time of connection switch 1, this switch disconnects the damaged connection from the power source of the network. If a single-phase closure at connection 1 simultaneously with reacting element 9 also responds element 10, then at the output of threshold element 30 this signal through the element LIMITED MEMORY 23 arrives at the control input of unit 19. Under the action of this signal, the output voltage of unit 19 begins to decrease according to a linear law, which leads to the fact that the output signals of TTPR 3 and 4 also begin to decrease. When the magnitude of these signals is equal to the magnitude of the return signal, the reacting elements 9 and 10 are returned to the initial state. The first to enter this state is the reactive element Yu, installed at connection 2, since the own capacitive current of this connection is less than the current through the damaged connection. As a result, the executive authority 14 is also returned to its original state and non-selective actuation of the protection does not occur. In this way, the selective operation of the protection is ensured while it is in the maximum sensitivity mode. The device can be made of typical elements (relays, current and voltage transformers, etc.). Introduction to the device to protect the correction unit and the bias unit with the control unit allows you to create a simple current protection against single-phase earth faults, which has high selectivity and sensitivity, which helps to increase the reliability of power supply and improve safety during operation of electrical installations. Claims An apparatus for protection against single-phase earth fault in a network with insulated neutral, containing zero-sequence current transformers installed at each connection with two secondary windings: working and biasing, reactive elements connected by their inputs to the current windings of current transformers common to all connections a biasing unit, supplying the magnetizing windings, a starting organ connected by its input, zero voltage to the voltage transformer and the output to the first inputs of the elements And, the second inputs of which are connected to the outputs of the corresponding reacting elements, the outputs of the elements And are connected to the inputs of the corresponding executive bodies acting on the shut-off coils, characterized in that, in order to increase the selectivity and sensitivity, introduced by its first output to the control input of the bias unit, which is made adjustable, the bias control unit, performed on the elements NOT and LIMITED MEMORY and a correction block, wherein the correction block is made on the elements of NOT, AND, and OR according to the number of connections and the total for all connections of the accumulator of response signals of reacting elements with a threshold element at the output and closing keys at the inputs of the adder, the control inputs of which are connected to the outputs of the actuators, and the output of the threshold element is connected to the first input of the control unit of the magnetization and with one of the inputs of the elements AND, the second inputs of which are NOT connected to the outputs of the corresponding reactants through the elements of the elements, the outputs of the elements AND through the elements OR are connected to the control inputs of the executive bodies, the second inputs of the elements OR are connected to the second output of the control unit, which is the output of the element NOT of the bias control unit, which is connected to the control input of the element of the Limited magnetization control unit, the input of which is the first input of the bias control unit, the output of the element LIMITED MEMORY is the first output of the magnetization control unit, and the second whose input is the input of NOT circuit, coupled to the output of the trigger body. Sources of information taken into account in the examination 1. The Journal "Industrial Energy, 1968, № 3, p. 4-7. 2. Mavritsyn A.M., Bukhtorov V.F. Protection from single-phase closure to earth in quarries. M., 1966, p. 50, fig. 42