CS224910B1 - The cable core connection during the electrical overfiring of the cable faults - Google Patents

Description

The invention relates to the connection of cable cores in the electrically burning of disturbances on cables, in particular on symmetrical notification cables.

In case of cable deformation, incorrect assembly of cable couplings, or ingress of metal chips into the cable, the conductor tests of the cable conductors or the conductor insulation test of the conductors of the cable may lead to electrical breakdowns between the conductors under test.

One known method of locating such faults is to create a permanent short circuit between the defective cores, or to establish a connection between the cores of sufficiently low transient resistance by means of an electrical burnout. In this method, the incinerator is connected to two defective cable cores that are insulated from each other and from the other cores of the cable. As the burn-in voltage gradually increases, an electric jump occurs at the point of the cable fault, and if the burn-in current is sufficient, the fault will burn permanently. At large distances of the defects from the burn-in point, especially on small-diameter cable cores, it is often not possible to achieve sufficient burn-in current without impermissibly increasing the burn-in voltage on the cable. In these cases, the burning is either ineffective, or if an inadmissible high burning voltage is used, the cable is at risk of breakthrough, or the cable assemblies are connected in the cable even in places where there is no fault.

The object of the invention is to overcome this drawback and at the same time to utilize the wiring of the cable cores in the electrically burning of cable failures for a simplified design of the burning devices.

The principle according to the invention consists in that at least one auxiliary conductor of the cable is connected to the first defective conductor of the cable at the beginning of the cable and at the end of the cable and to the second defective conductor of the cable is also connected at the beginning

224 910 of the cable, at least one additional auxiliary conductor of the cable, and at the same time, the first defective conductor of the cable * at the beginning of the cable is connected to the first output terminal of the firing device.

The main advantages of the wiring according to the invention are that if the electrical resistance of one faulty cable or auxiliary cable from the beginning of the cable to the end of the cable is R, the resistance of one faulty cable from the beginning of the cable to the fault location is X, R measured at the beginning of the cable between the first defective conductor of the cable and the second defective conductor of the cable, after a complete failure of the fault at which the transition resistance between the first defective conductor of the cable and the second defective conductor of the cable at zero is

R _g = 2X - X ² ---- 5 --- R (1 + n) and the maximum loop resistance R _a "measured at the beginning of the cable between the first defective conductor of the cable and the second defective conductor of the cable can only reach where n is the number of cable auxiliary conductors and R is the total resistance of one cable conductor.

By means of this connection, it is possible to burn faults on long cable sections with a sufficiently high current without the voltage at the beginning of the cable section or at any point in the cable rising above the permissible value.

A further advantage of the circuit according to the invention lies in proposal for simplified ene prepalovacieho device according to the maximum resistance of the loop _{a mixture of} H ·

The invention is explained in more detail below by way of example with reference to the drawing.

The first defective cable 2 is connected at the beginning of the cable 2 to the auxiliary conductors of the cable 2 ^{and to the conc} . Of the cable 6 Ρ- ^ν & the defective conductor of the cable 2 Connected to the same auxiliary conductors of the cable 2. connected to the other wire 24 of the cable 6 and at the end of the cable 6 the second defective wire of the cable 2 is connected to the same other auxiliary conductors of the cable. The first output terminal χ of the firing device 6 is connected to the first defective wire of the cable 1 at the beginning of the cable 6 and the second the output terminal 8 of the incinerator 6 is connected to the other conductor of the cable 2 at the beginning of the cable 6;

The operation of the wiring according to the invention is described below.

In the idle state, the output voltage of the firing device 4 is zero. The first output terminal χ of the firing device 2 is connected at the beginning of cable 6 to the first defective wire of cable X, which is simultaneously connected at the beginning of cable 6 and The second output terminal 8 of the firing device 2 ^aa connects at the beginning of the cable 6 to the second conductor of the cable 2 which is simultaneously connected at the beginning of the cable 6 and at the end of the cable 6 to the auxiliary wires of the cable 4. The breakthrough is detected by a sudden increase in the current of the firing device 2 · Ρθ in the first breakthrough, the voltage of the firing source 2 is gradually increased while simultaneously checking the value of the current flowing from the firing source 2 ^and the voltage between the first output terminal. and second output terminal 8. Output voltage pr of the incinerator 2 only increases until the allowable current flowing from the incinerator 2 »through which the cable can be burned, or until the permissible voltage between the first output terminal χ and the second output terminal 8, which can be connected to the cable cores, is reached

Once the allowable voltage or allowable burn current has been reached, the voltage is allowed to remain for a few seconds. Then, the voltage is reduced to zero thereby stilling completed · _r

The loop resistance measured at the beginning of the cable 6 between the first defective conductor of the cable 1 and the second defective conductor of the cable 2 after a complete burn through, wherein the transition resistance between the first defective conductor of the cable 1 and the second defective conductor of the cable 2 at the fault 10

-r zero, maximum

224 910 where R is the total resistance of one cable vein and n is the number of auxiliary veins of the cable.

Claims (1)

Connection of cable cores for electrical burning of cable failures, in particular on symmetrical communication cables, characterized in that at least one auxiliary cable (1) is connected to the first defective cable vein (1) at the beginning of the cable (5) and at the end of the cable (6). 3) and to the second defective vein of the cable (2) at the beginning of the cable (5) and at the end of the cable (6) at least one Saler auxiliary conductor of the cable (4) is connected and simultaneously to the first defective vein of the cable (1) 5) the first output terminal (7) of the ignition device (9) is connected, and the second output terminal (8) of the ignition device (9) is connected to the type of conductor of the cable (2) at the beginning of the cable (5).