SU815833A1 - Device for protecting electric network with insulated or compensated neutral wire from asymmetric operating mode - Google Patents

Description

(54) DEVICE FOR PROTECTION

FROM NONYMMETRIC OPERATION MODE

ELECTRIC NETWORK WITH ISOLATED

OR COMPENSATED NEUTRAL

voltage to constant, and executive authority 2,

However, the known device has insufficient sensitivity.

The purpose of the invention is to improve the reliability of the protection of the electrical network with an isolated or compensated neutral from asymmetry during phase breaks or phase voltage inequalities.

The goal is achieved by the fact that in a known device containing, connected to each of the phases and neutral of the network, alternating voltage converters to a constant and the executive body are additionally introduced one logical element AND into the channel of each phase and one logical element into the channel of each phase, the logical element OR, and the logical element that implements the unequal operation, common to the three phases, while the output of each of the converters connected to the phases of the network is connected to the input of the logical element of the AND phase of the same name through the logical element NOT, and with the inputs of logical elements AND the lagging and leading phases directly, the outputs of the logical elements AND are connected to the three inputs of the logical element OR, and the two inputs of the logical element realizing the operation of unequalities are respectively and the output of the above-mentioned AC voltage converter permanently connected to the neutral, and the output of the logic element realizing the inequality operation is connected to entry of said actuator body.

The drawing shows the functional diagram of the device.

The proposed device contains 1, 2, 3 and 4 alternating voltage to constant voltage converters, logical elements He 5, 6 and 7 logic elements AND 8, 9 and 10 logic element OR 11, logic element 12 implementing the unequality operation 4 executive body 13 .

The proposed device works as follows.

The inputs of the transducers 1, 2, and 3 of the alternating voltage are supplied to the mains voltage Ua, Ug, and Uc, and to the input of the transducer 4 - the neutral voltage UQ. Transducers 1, 2, and 3 have a voltage setting of 0.05–0.2 V, and a transducer 4, a setting of 0.3–0.5 UV. If one of the voltages is less than the setpoint voltage, then the output signal of the corresponding converter is zero, and when the setpoint is exceeded, the logical one. Thus, the selected settings ensure that the output signal of the transducers 1, 2, and 3 change only when a single-phase electric network occurs.

ground faults or the disappearance of the voltage on the phase, and at the output of the converter 4 - for any increase in the voltage on the neutral.

Transmitter 1 output signals,

2 and 3 are fed to the inputs of logical elements AND 8, 9 and 10 of the same phases through the logical elements NOT 5, 6 and 7, and to the inputs of the elements of the lagging and leading phases - directly. Such a wiring diagram in the normal operation of the electrical network ensures the prohibition of logical elements And from converters of the same phase, and in the event of a single-phase earth fault or voltage loss in the phase, the resolution for the logical element And the damaged phase and the prohibition damage for the logical elements And healthy phases.

The outputs of the logic elements AND 8, 9 and 10 are connected to the three inputs of the logic element OR 11, the output signal of which becomes equal to a logical one with a single-phase short to ground or loss of voltage to any of the phases. The outputs of the logic element 11 and the converter 4 are connected to two inputs of the logic element 12 that implements the logical inequality function, i.e. its output signal is zero when both its input signals are equal (both are equal to logical one or logical zero), and equal to logical one when

0 one of the signals is equal to one, and the second - to zero. ,

The output signals of the converter 4 and the logic element 11 in the normal mode of the electrical network are equal to the voltage, and when

5 the occurrence of a single-phase ground fault - a logical unit. Therefore, in these modes, the output signal of the logic element 12 is equal to a logical zero. When a phase voltage unbalance occurs in the electrical network, the output signal of converter 4 becomes equal to logical unit, converter 4 becomes equal to logical unit, converters 1, 2 and 3 do not change their states at the output of logic element 11

Claims (2)

5, the signal remains zero. In this case, the output signal of the logic element 12 becomes equal to the logical unit, which signals the occurrence of an abnormal mode of the electrical network. Similarly, when the voltage is lost at one of the phases, the converter 4 does not change its state, the output signal of the faulty phase converter changes, and a logical unit appears at the outputs of the corresponding logical element AND and element 11, which causes the appearance of a logical unit and output logic element 12. This leads to actuation of the executive body 13. The proposed device allows to achieve a positive effect, which consists in increasing the reliability of information on the state of the electrical network, both Composition of the correct operation of the automatic control systems in various states of the electrical network. This will improve the reliability of the electrical network. Claim device for protection against asymmetrical mode of operation of an electrical network with insulated or compensated neutral, containing, connected to each of the phases and neutral of the network, alternating voltage transformers to a constant, and the executive body, characterized in that, in order to increase the reliability of operation at phase breaks or phase voltage and conduction inequalities, one logical element is additionally introduced into it AND into the channel of each phase, one element NOT into the channel of each phase , the logical element OR and the logical element implementing the inequality operation common to the three phases, the output of each converter connected to the network phases is connected to the input of the logical element AND of the same phase through the logical element NOT, and with the inputs of the logical elements AND lagging behind and leading phases - directly, the outputs of the AND logic elements are connected to the Three inputs of the OR logic element, two inputs of the logic element realizing the inequality operations are connected respectively to the output ogicheskogo OR gate and the output of said converter to the AC neutral and the output of NAND gate realizing nonequivalence operation, connected to an input of said actuator body. Sources of information taken into account during the examination 1. USSR author's certificate No. 481100, cl. H 02 H 3/16, 1975. 2. USSR author's certificate number 639077, cl. H 02 And 7/08, 1977.