DE655206C - Arrangement for measuring the location of faults in cables, preferably multi-conductor cables, with the aid of a bridge circuit - Google Patents

Description

Arrangement for fault location measurement in cables, preferably multi-conductor cables, with the help of a bridge circuit the subject of the main patent is a special one Arrangement for measuring the location of faults on cables, in which two adjacent ones in a known manner Branches of the bridge from a sliding wire and the other two bridge branches from the line resistances of two cable cores including the respective fault resistances. are formed. For one of these branches is in permanent connection with your grinding wire an additional variable resistor is provided, which is to be set in such a way_, that the cable cores at the fault location are at the same potential when the bridge is balanced are located. In this way it is possible to find the unknown error resistances the measurement and to determine the line resistance up to the point of failure.

The present invention aims to further improve on the foregoing Arrangement. It is based on the consideration that in many cases the resistances of the Cable cores are of such a small order of magnitude that those coming in as measurement errors unavoidable connection resistances of the measuring circuit have a strong influence on the measuring result can. Not only the resistances of the die are under connection resistances Measuring circuit and the contact connecting the cable core, but also the resistors the unavoidable connection lines required between the cable core and the measuring arrangement to understand.

According to the invention, the circuit according to the main patent is in the manner added that additional fixed resistors are so connected to the fixed bridge resistor are or can be connected by switches in such a way that with the aid of the fixed bridge resistance with changeable tap the measurement of the contact resistance to the terminals used to connect the cable cores, including the supply lines for measuring circuit is possible.

The drawing shows the basic structure of a fault location measuring device designed according to the present invention. The two cable conductors are denoted by r and z. S1 and S. are two parts of the bridge wire D. R is used to measure the location of the fault. R is a variable Ohinscher resistor. r, are unchangeable resistances. K2 and K, 1 are two clamping devices with the help of which the connecting lines of the bridge circuit are glued to the cable cores, Kx, and K4 two auxiliary lines, which are also connected to the cable cores. can be. The transition resistance at terminal K @ and in the lead to the device connected to this terminal is denoted by r2 and the transition resistance at terminal K3 including lead is finite r. G is a galvanometer whose series resistance can be changed to set a desired measuring range. Since, there is a switch that enables the use of the galvanometer G either to measure the contact resistance or to measure the location of the fault. L? I and U2 are switches that are inserted to measure the contact resistance, but must be open when measuring the location of the fault. Diyne the drawing position shown the switch Ui, U. Sch and the switch corresponds to a current use of the arrangement for Fehlerortsniessung. If the transition resistances r2 and r, respectively, are to be determined, then the switch Sch is toggled to position 3 or position 2. 1. In position 3, for example, the galvanometer is connected to the zero branch of a bridge, which consists of the fixed resistors ro, a part of the bridge wire S2 designated by ßS2 and the contact resistance r2. It is assumed that the variable resistor R is short-circuited. The contact resistance r. Can be determined in this circuit. Only the condition must be met that the resistances r, - are relatively large compared to βS2 and r2. Then the inevitable resistance in the connection between terminal K and the cable core only plays a subordinate role.

According to the previously explained solution, the contact resistance r can be determined at position 2 of the switch Sch. The position r of the switch Sch is used to measure the location of the fault. The switches LT and L72 are opened, as already explained above, so that the terminals K = and K3 are only bridged by the variable resistor R and the sliding wire.

When measuring the location of the fault, the amount ßS2 des Resistance wire D made equal to zero. However, under certain circumstances you can use the for Setting of sliding contact serving ßS2 to supplement the changeable resistance Use R if e.g. B. this sufficiently small '-. @ V-exte for exact setting does not contain. ': 3-i% _: - in this case the additional `* # din: stwerte an d'em Contact wire D can be inserted.

Claims (3)

Pa TEINT AN SPRL cii E i. Arrangement for fault location measurement in cables, preferably multi-conductor cables, with the help of a bridge circuit, in which two parallel branches with respect to the current duels are formed by a fixed resistor with a variable center tap and the other two parallel branches are formed by two parallel cable cores and their fault resistors, and according to the patent 6. ¢ 7 107 in one of the last-mentioned two bridge branches, an expediently permanently connected to the fixed resistor, changeable additional resistor is arranged, which is to be set so that the cable cores at your fault location are at the same potential when the bridge is balanced, characterized in that additional Fixed resistors (7-0) are connected to the fixed bridge resistor (D) or can be connected by switches (Ui, U2) in such a way that, with the aid of the fixed bridge resistor with variable tap, the measurement of the contact resistances at the connection to the cable cores serving K terminal including the leads to the measuring circuit is possible. 2. Arrangement according to claim r, characterized in that that the fixed bridge resistance (D) with one fixed tap and two through this Tapping separate changeable taps is provided. 3. Arrangement according to claim 2, characterized in that two pairs of fixed resistors (ro) are provided and that each pair has a contact resistance (ri, r2) between cable core and Measuring arrangement and a variable part (a Si, ß S2) of the fixed bridge resistance (D) connected to a bridge circuit and the zero instrument with for balancing Using a double-pole changeover switch (Sch) with three switch positions on this bridge circuit can be connected.