CS202129B1 - Instrument for localization of the ionizating spots in the heavy-current cables - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for locating ionizing sites in heavy-duty cables and cable terminals, not containing ferromagnetic sheaths, which, as a result of the manufacturing process or in operation, produce gas-filled cavities causing high voltage fields and partial discharges thereby degrading the insulation system .

To date, it is not known an operational portable device using a probe to connect with a device of small geometric dimensions for the primary location of ionizing sites in cables and cable terminals. Previously known methods have allowed only the existence of partial discharges in cables, possibly in the cable section either by high-voltage bridge methods or by non-portable, network-bound electronic devices. The cavity localization probe works on the principle of sensing the magnetic component of radiated RF energy through a cavity in which partial discharges occur. The sensor of this energy is a small antenna made of ferritic material, allowing localization of the cavity to a flat 1-2 cm,

The above drawbacks are overcome by an apparatus for locating ionizing spots in power cables and cable terminals according to the invention, which consists in receiving a magnetic component of an electromagnetic wave emitted by a cavity in which, under the influence of high voltage, partial discharges are generated by a sensing probe connected to a high frequency. an impedance transformer and a three-stage selective amplifier. from

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its output takes the signal next to the oez detector to the evaluator, which is a dlferenoial voltmeter

The Sn-fmanta spectrum is done in an inductive way, eliminating mechanical interference on the cable under investigation. The electrical energy insert does not affect the sensor, since the probe is housed in the housing of the electrically conductive material, thereby sufficiently shielding it.

The advantage of the present arrangement lies in the ease of sensing the signal by the probe and the positioning amplifier on the insulating rod, so that it is possible to identify the ionizing spots on the cable terminals and the cable in the switchgear and the cable channels without being connected to the network. The low weight and geometric dimensions of the amplifier probe allow for operative measurement.

The attached drawing shows a schematic representation of the apparatus assembly according to the invention. The invention consists of a sensor probe 1 connected to a high-frequency amplifier 2, which is inductively coupled to an impedance transformer 2. This is connected to a three-stage selective amplifier 6, a detector 6 and a differential voltmeter 6 and 6. The power supply of the device is realized from a unidirectional power supply 2, whose voltage is stabilized by a stabilizer 8

The sensing probe 1 receives a signal when applied to the defective wire cable 10. The high-frequency amplifier 6 and the impedance transformer 4, coupled to the three-stage selective amplifier 4, process the signal, after amplifying it, in addition to the detector 6 and after integrating into a delta 6 voltmeter 6. is stabilized by transistor stabilizer 8.

The invention can be used in the diagnosis of cables and cable terminals of high voltage and high voltage equipment at substations and cable networks. The device allows the defective spot to be determined without breaking the cable insulation, thus enabling timely replacement of the parts in which partial discharges occur.

Claims (1)

On its output, the signal next to the detector is on the evaluator, which is a volt-meter. The sensing of the spectrum is done inductively, thereby eliminating mechanical interference on the test cable. The electrode of the conjured energy does not affect the sensor, the probe located in the housing of the electrically conductive material, which is sufficiently shielded. The advantage of the present arrangement lies in the ease of sensing the signal by the probe and the amplifier positioned on the insulating rod, so that ionizing grits can be identified on the cable terminals and the cable in the switchgear and the cable channel without being connected to the inlet. The low weight and geometric dimensions of the amplifier probe allow for operable measurement. In the accompanying drawing, there is shown schematically an assembly of an apparatus according to the invention consisting of a sensor probe 1 connected to a high frequency amplifier 2 which is inductively coupled to an impedance transformer 2. This is connected to a three-stage selective amplifier 6, a detector 6 and a differential voltmeter 6 and 6. The power supply of the apparatus made of the unidirectional source 2, the voltage of which is stabilized by the stabilizer 8 The sensing probe 1 receives the signal after being applied to the cable 10 with a defective location. The high-frequency amplifier 6 and the impedance transformer 6 coupled to the three-stage selective amplifier 6 operate the signal, after amplifying it next to the detector 6 and integrating the diaphragm voltmeter 6a, the device is powered from a 13.5 · 18 volt cell. The invention can be used in the diagnosis of cables and high-caliber, high-voltage cable feeders and high-voltage switchgear tuners and cable harnesses. The device is designed to determine a defective spot without damaging the cable insulation, thus allowing for the early replacement of the metal to which partial discharges are generated. EXTENDING THE EXTRACTION INSTRUMENT A device for locating ionizing sites in a high current cable and cable terminal, characterized in that the sensor probe (1) for receiving the magnetic component of the electromagnetic wave emitted by the cavity in the cable (10) is formed by a ferrite wound coil shielded over a lengthy distance from the electromagnetic interference. the signal is a high frequency amplifier (2) and an impedance transformer (3) coupled to a three-stage selective amplifier (4) to which the differential-volt-meter (6) and (7) are connected to the detector (5) 1 drawing