CS224053B1 - Method of defects detection on communication cables and connexion for its realization - Google Patents

Description

224 053 The invention relates to the localization of low-impedance and high-impedance faults on metal-clad communication cables caused by a significant deterioration of the insulation between the cable core and the metal cladding and possibly between the armor and the metal cladding of the cable.

Bridge or reflex methods have been used to localize these disorders.

Their main disadvantages are that they do not give reliable results in high-ohm disturbances and are often unusable ·

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the shortcomings of known cable failure localization methods and to provide such a method and wiring which can determine with sufficient accuracy the distance of the failure point caused by the insulation deterioration between the cable cores and the metal sheath. in cases of high ohm failure *

This object is achieved by the method according to the invention in that the fraction of voltage is determined

224 053 of the applied DC current between the near end of the cable sheath and the failure point to the total voltage of the inserted DC current between the free intact vein and the cable sheath in the measured section corresponding to the ratio of the failure point distance to the total length of the measured cable section In the method according to the invention, a direct current source is connected between the cable sheath and the free intact wire and a switch connected between the other free wire and the defective cable wire is connected to the cable sheath by its middle terminal via a voltmeter.

The main advantages of the method and wiring according to the invention are that they are simple and yet provide sufficiently accurate and reliable results, even in the case of disturbances of a high ohmic nature.

The invention is explained in more detail below with reference to the accompanying drawing, in one example of measurement.

Between the proximal end 1 and the distal end 2 of the cable sheath £ in the examined region is connected by a free intact ží224 053 ly four source 8 is a DC current whose flow is induced to the cable jacket 3 of the total voltage U _Q as measured with other free cores 5, attached at the distal end 2 to the cable sheath 3 and at the near end J to one switch terminal 7, while the other switch terminal 7 is connected to the end of the defective cable core 6. The center of the switch 7 is connected to one DC voltmeter terminal 9 while the other The voltmeter 9 is connected to the cable sheath 3 at the near end 11.

Thus, in the first position of switch J, we measure the total voltage U between the ends 1, 2 of the cable sheath 3, while in the second position of the switch 7 we measure the voltage U between the near end 1 of the cable sheath 3 and the fault point 10 through the fault resistor 11. near end 1 is calculated approximately by the formula

AT.

where the distance of the failure point 10 from the proximal end J1 of the cable sheath 1 is the total cable length,

U is the total stress and

U is the voltage between the near end 1 of the cable

A and point 10 faults

Claims (2)

A method of locating faults on a metal sheathed communication cable, characterized by determining the proportion of the applied DC current between the near end of the sheath and the fault location to the total voltage of the inserted DC current between the free intact vein and the sheath in the measured section. corresponds to the ratio of the distance of the failure point to the total length of the measured cable section, 2. Connection for carrying out the method according to claim 1 _, characterized in that a direct current source (8) is connected between the cable sheath (2) and the free intact conductor (4) and between the other free conductor (5) and the defective cable conductor (6). a switch (7) connected to the cable sheath (3) via a voltmeter (9) via its middle terminal,