SU262262A1 - STATIC ELECTROMAGNETIC FREQUENCY GENERATOR FOR SEARCHING CURRENT PLACES IN AIR AND CABLE LINES - Google Patents

Description

The generator is designed to find any kind of closure on a completely disconnected line by an induction method, as well as to find zymykan on the ground in lines of any kind and voltage value of any configuration, isolated or compensated for the ground without disconnecting the damaged section, as well as disconnected from supply substation feeder without disconnecting consumer transformers.

Known sound frequency generators, made in the form of a single-phase ferroresonance frequency multiplier and used in finding the places of short circuits in the line by the induction method.

In this case, the frequency overlap is usually made after removing the voltage from the damaged section of the line, isolating it at the site of the damage and after-burning it to a low resistance. This requires three separate installations, and switching takes considerable time, which leads to an increase in the time required to eliminate the accident.

The proposed generator is different in that it has two secondary windings, one winding being connected to the damaged line through a rectifier and serving to break the insulation at the location of the circuit, and the other WMOC9 connected to the line through a capacitor that creates resonance at one of the highest harmonic voltages 50 Hz, and serves to impose on the network frequency.

When finding places for two-phase and three-phase short circuits, which is conducted on a completely disconnected cable or overhead line, the generator turns on between damaged phases, and on finding a single-phase ground fault, between the ground and the damaged phase. The generator may turn on the line with an incomplete closure to ground, since a capacitor is connected parallel to the primary winding, creating at a frequency of 50 Hz a capacitive input resistance of small magnitude relative to the output terminals of the generator. This eliminates the possibility of resonance at a frequency of 50 Hz, significantly reduces the voltage of 50 Hz on the secondary winding and, in addition, increases the cos f of the device.

The drawing shows a diagram of the frequency generator, where / is the primary winding; 2 - winding for imposing a current of increased frequency; 3 — high voltage winding for insulating at the site of damage; 4 - high-voltage driver; 5 shows a capacitor used to create a resonance at the generated frequency, separate the winding 2 and the network at a frequency of 50 Hz, separate the windings 2 and 3 between them, accumulate a constant high voltage; 6 - capacitor used to create capacitive input impedance relative to the points L and B and improve cos cf. In order to reduce the dependence of the magnitude of the imposed current on the distance to the point of closure, the inductive resistance of the generator winding 2 is selected several times greater than the inductive resistance of the LINE, and the setting of the output circuit of the generator Yu is over-compensated so that the circuit approaches to resonance. Before the insulation breakdown at the damage site on the capacitor 5, an accumulation of charge occurs, which is released during the breakdown at the damage location, which contributes to the afterburning of the insulation at the damage location. The winding 2 must have a reinforced inter-turn insulation, since during the breakdown of the insulation, a constant voltage of the capacitor 5 is applied to it to reduce the overvoltages in parallel to the winding 2. Tuning into resonance on the third, fifth, 25th, seventh, etc., 50 Hz current harmonics can be done by selecting the number of turns of winding 2 and capacitance of capacitor 5. Since during insulation breakdown winding 3 operates in short circuit mode, on-30 generator short circuit with respect to terminals A – C should be large, with an optimal value of 1 50%. This can be achieved by positioning the primary winding 1 and the secondary winding 35 ki 3 on different rods of the magnetic circuit. In order to obtain a sufficiently low capacitive input resistance with respect to points L and B, condition C b-C (I where C is capacitor 6 capacity C; C is capacitor 5 capacitance 5; W 2 and tW i is the number of turns of windings 2 and L). ground in three-phase 6-35 kV lines with insulated or compensated neutral without disconnecting the generator can be simplified by eliminating high voltage winding and rectifier, subject of the invention Static electromagnetic frequency generator for finding short circuits in the air Induction and cable lines, made in the form of a single-phase ferroresonance frequency multiplier, characterized in that, in order to find a place of closure of any kind on a completely disconnected line and place of a ground loop without disconnecting the damaged section in lines with insulated or komrentirovanny neutral, parallel to its primary winding, a capacitor is turned on, and the secondary winding consists of two sections connected in series, one of which is connected to the tested line through a valve, and the other through the condenser.