DE3702735A1 - Capacitive voltage divider for high-voltage cables - Google Patents

Abstract

A conductive layer or conductive tape located around the wire insulation of a high-voltage cable (1 in Fig. 1), together with a low-voltage capacitor, forms a capacitive voltage divider. The dielectric strength of the high-voltage capacitor is determined by the conductor insulation of the cable. The voltage drop across the low-voltage capacitor is supplied to a test socket located on the cable jacket. The voltage divider can be installed subsequently by a specially shaped connecting sleeve or by specially shaped cable terminations at any point in a cable network. The voltage dividers allow continuous voltage measurement at any number of test points in the cable network. The bandwidth extends from the system frequency up into the MHz range. <IMAGE>

Description

The invention relates to a device for measuring ho AC voltage and high switching and interference voltage in switchgear and cable networks with little at least two in series between high voltage potential and earth arranged, a capacitive voltage section capacitors, of which those connected to earth closed capacitor serves as a measuring capacitor. The Voltage drop across the measuring capacitor can be tapped and a measured value acquisition unit are supplied.

In energy supply networks and in switchgear who the mainly inductive for monitoring the mains voltage Voltage converter used. Voltage measurements on de  defined places of a medium voltage or high voltage cables are not possible. Switching or fault Tensions in the network are due to the low limits frequency of the inductive converter not detectable. The Use of capacitive voltage dividers for chip voltage measurement is already in the book by A. J. Schwab "High voltage measurement technology" 1969 described. The out design of a capacitive voltage divider will be reits in DT 23 41 073 A1 for encapsulated switchgear described. One especially for cable networks and air-insulated switchgear simply design the High voltage capacitor is not known.

The invention has for its object a kapa to build quotative voltage dividers so that the network voltage at any point in a cable network can be measured. The occurring in the company Switching and interference voltages that exceed the fre quenz, should also be due to the capacitive Voltage dividers are detected. The problem of the verb of the high-voltage capacitor with voltage parts of the cable or switchgear possible through the use of existing equipment be simplified as much as possible.

The object is achieved in that the high-voltage capacitor consists of a part of the Lei terisolierung of any length medium voltage or high voltage cable. The conductor insulation ( 1 ) and the surrounding conductive layer or tape ( 2 ) in Fig. 1 form the high-voltage capacitor. An insulating layer ( 5 ) is located between the conductive layer ( 2 ) and the shield wires ( 4 ). The measuring capacitor ( 6 ) is connected between ( 2 ) and ( 4 ). In a coaxial version according to claim 5, the insulating layer ( 5 ) forms together with ( 2 ) and ( 4 ) the measuring capacitor. The divider ratio of the voltage divider can be determined by the choice of the measuring capacitor.

The voltage divider described in claim 1 and shown in Fig. 1 Darge can be made from the end pieces of a medium voltage or high voltage cable. The shield wires of the cable end in a Ka belendverschluß ( 8 ). The measuring voltage can be tapped at a measuring socket ( 6 ) on the cable jacket. Conventional cable terminations can be used for the construction of the voltage divider according to FIG. 1. The arrangement in FIG. 1 enables the line voltage of each phase to be measured at each cable end.

The voltage divider according to claim 1 can also consist of egg nem short cable piece, which is completed on both sides with a cable end closure, as shown in Fig. 2. The cable piece with voltage divider can be installed in the busbar or at any live location. For voltage measurement in a cable network, the capacitive voltage divider can be made according to claim 2 from the conductor insulation of a connecting sleeve. This connection sleeve according to Fig. 3 of a high or with telspannungsnetzes can be installed at any location.

The advantages that can be achieved with the invention are based insist that the voltage measurement in a cable network is possible at any point without the cable insulation to damage. Installation in an existing high voltage cable is used as a capacitive part ler according to claim 2 with the known technique of Ver  binding sleeve easily possible. The high range of capacitive voltage divider allows measurement higher of frequent switching and interference voltages. The at the measuring Measuring voltage applied to the socket can be may be evaluated. Are egg in several places nes power supply network voltage divider according to An installed 1 or 2, there is the possibility de central or on site all voltage events in the Ka belnetz, at the transition points of cables in Trans formers or switchgear or preferred ten points in the cable. A computer supported network monitoring is possible.  

• REFERENCE NUMERALS FIG. 1: A capacitive voltage divider to a cable termination of a medium or high voltage cable 1, the conductor insulation
  2 conductive layer or tape
  3 conductors
  4 shield wires
  5 insulating layer
  6 measuring capacitor with measuring socket
  7 heat shrink tubing
  8 Cable end closure Fig. 2: Capacitive voltage divider on a short piece of cable with two end closures 6 Test socket Fig. 3: Capacitive voltage divider consisting of a retrofitted connecting sleeve 1 sleeve pipe
  2 conductive layer or tape
  3 conductors
  4 shield wires
  5 insulating layer
  6 measuring capacitor with measuring socket
  9 core insulation
  10 press connectors
  11 smoothing sleeve
  12 cables

Claims (7)

1. Measuring device for voltage measurement, consisting of a capacitive voltage divider, in particular for medium and high voltages with at least two in series between high voltage potential and earth arranged, a capacitive voltage voltage dividers forming capacitors, one of which serves as a high voltage capacitor and at least one as a measuring capacitor , characterized in that the high-voltage capacitor consists of part of the conductor insulation of any length of medium-voltage or high-voltage cable and the Tei ratio is determined by the choice of the capacitance of the measuring capacitor. 2. Voltage divider according to claim 1, characterized in that the high voltage capacitor also from the conductor insulation (Sleeve pipe) of a connecting sleeve can exist. 3. Voltage divider according to claim 1 and 2, characterized records that the conductor insulation with an additional conductive layer or a conductive tape is surrounded and it is insulated from the outer shield wires. 4. Voltage divider according to claim 1 and 2, characterized records that the measuring capacitor between the conductive Layer or the conductive tape and the grounded shield wires is switched. 5. Voltage divider according to claim 1 and 2, characterized records that the measuring capacitor also from a dielectric Insulating layer or insulating film can exist, which ko axially between the conductive layer or the conductive Tape and the shield wires.   6. Voltage divider according to claim 1 and 2, characterized records that the voltage drop across the measuring capacitor abge is gripped and a measuring socket located on the cable jacket is fed. 7. Voltage divider according to claim 1 and 2, characterized records that with appropriate, simple installation in a existing or to be built cable network the mains voltage and occurring overvoltage or undervoltage at any location of the cable network can be measured.