SU748295A1 - Method of determining earthings in control dc networks - Google Patents

Description

one

The invention relates to a pulse technique.

A known method for determining a plot with a single-phase earth fault,. which is based on determining the duration of the zero sequence voltage pulse at the supply substation.

However, the known method is not applicable. in order to determine earth faults in the operational direct current circuit.

There is also known a method for determining earth faults in the operational DC circuits, introducing measurement of the current flowing in the test circuit 2.

However, this method is rather complicated and has not enough wide functionality.

The purpose of the invention is to simplify the method by eliminating the measurement of the sum of the secondary currents and expanding: the functionality by providing 2S measurements in the DC circuits is achieved by the method that includes the measurement. flowing in the test circuit, carry out an additional ground fault in the test circuit and compare the magnitudes of the currents in the circuit in the presence and absence of an additional short circuit to ground.

The drawing shows a diagram of two independent circuits that receive power from the same energy source, which contains two of the same name switches 1 and 2 and, respectively, buses + and -, portable amp 4yo 3, switches 4 and 5 circuits, loads 6–9 circuits , fuses 10-13, sectional switches 14 and 15.

Assume that the load 6 has a short to ground at point 16. Connect the ammeter 3 to the terminals of the switch 4 and close it. Electric current flows in the following way: fuse 10 - ammeter 3 - load 6 and 7 - fuse 11 and to the negative bus.

Current

tm

"VWVR / R i

Before

Where

R and resistances of fuses 10 and 11; I - is the resistance of the ammeter;

wire resistance; .R /; VAVi, Hiarps aoK resistance

 b and 7.

. Next, close the switch 1. Now the current flows through the following m: fuse 10 - ammeter 3 - loads b and 7, fuse 11 and to the minus bus and switch 1, transient resistance of earth R, part of the load b, load 7, fuse 11 and k minus bus. The sections of the 6t positive ground circuit to the point 16 through the ammeter and through the transitional resistance of the earth are included directly, therefore, their equivalent resistance

No ground fault is the same as above, only an additional short circuit is made by switch 2. Before switch 2 is turned on, the circuit current is 1. After switching on the switch 2, the current flows in the following way: fuse 10 - ammeter 3 load b - part of load 7 and then from point 17 in two ways: through transient resistance of the ground and through part of load 7, fuse 11 to the negative bus. Chains from point 17 to minus bus are connected in parallel. The equivalent resistance of their r.

o- -L -Sh e kGTTG

Where

etc

 V4 where

one

e is less than the smallest resistance included in the right side of formula (2), then the resistance of the circuit

g

where R2, -R ,, R

Pr Current circuit but since R and, then 1 i. On the other hand, the ammeter is shunted through the earth's transient resistance. I – j The current of the parallel branches is inversely proportional to their resistance, but so is KaKR. “-1, (1z the current flowing through the transient resistance of the earth), therefore, the reading of the ammeter decreases. If you connect the ammeter to the terminals of the circuit breaker 5, which does not have a ground fault, then the current flowing through the ammeter, .b resistance of the fuses 12 and 13, RgMRg with the resistance of loads 8 and 9.:,; ..; When the switch 1 is closed, the current is distributed as described above. The circuit does not change the resistance R through the transient resistance of the earth, and therefore the current 1 does not change either. Thus, the indication of the ammeter connected to the circuit — having a short to ground — changes during additional blinking, does not have a short to ground — remains unchanged. . If a ground fault occurs in the circuit of another potential Ef point, 17 of load 7, then the order is defined. General resistance

chains

. De R „o Rd-R„ p R

/ 2.

Then the current. Circuit

--Y

Claims (1)

1. USSR author's certificate  261565, class G 01 R 31/08, 09.10.67 2, USSR Author's Certificate 276243, cl. G 01 R 31 / 08,24.07.68 (prototype).