SU739666A1 - Residual current transformer - Google Patents

Description

   one . The invention relates to the field of relay protection of electrical networks and preplaced relay protection from single-phase closure to a three-phase system demolition system: To detect leakage currents and single-phase short circuits to earth in a three-phase electrical system of a wide range of transformers of a zero-phase circuit to a zero-wire circuit of a zero-voltage circuitry to a single-phase electrical system of a wide range of zero-voltage circuit transformers of the zero-phase circuit. Tenia TNP zero sequence current transformers are known which have a magnetic core in the form of a rectangular frame of ns 8 electro technical steel, covering three-phase conductors at the junction; Two or four induction coils, connected in series or in parallel, are installed on the magnet line. 1 Katushdi performs the role of sensitive sensors of zero-sequence currents. Z1 sequence current transformers of the type T371M are also known, differing from the first ones only in the form of the magnetic circuit, which is designed as a toroid 2J. However, using these zero-sequence current transformers, it is not possible to achieve the required sensitivity and reliability threshold. The sensitivity threshold of these transformers is limited by the presence of a secondary unbalance current on the order of 7Q-1OO mA. Such transformers do not work reliably in all emergency modes | also, the required electrical safety is not always met, since in specific productions the current, ground faults of about 5 o mA are considered hazardous. Zero-sequence current transformers are also known to contain a three-phase primary winding, a magnetic core covering the primary winding and magnetic field sensors (secondary windings) located on the magnetic core in which to reduce the unbalance current;

Claims (3)

739666 Locking Shielded Ferromagnetic Ring h. The latter device is closest to the proposed technical essence and achievable effect. However, despite the fact that in this device the magnetic flux of the scattering is symmetrized by the shielding ring, the sensitivity threshold still remains HIGH. The aim of the invention is to reduce the sensitivity threshold and improve the reliability of the zero sequence current transformer. This is achieved by the fact that in a known current transformer of zero-sequence, containing a three-pole three-winding winding, a magnetic circuit covering the first winding and magnetic field sensors located on a magnetic conductor, the magnetic field is in the form of a bell-shaped ted, divided in height by radial gaps in which electrically conductive plates are installed, and three single parts in the middle of the section of the magnetic conductor are symmetrically made inclined syvoennye holes, the edges of which intersect at the base and the magnetic conductor, perpendicular to the base, the primary winding conductors pass through the holes, and in each part of the toprai magy in the plane passing through the hole axis and the magnetic axis, radial slots are made in which 1X bar. Magnetic npjm sensors placed above the apertures were installed, while on the surface of the cable line facing the slits, the points of the floor sensors were made. Fig, 1 and 2 shows the proposed transformer, oeshi view | in fig. For, b, in - examples of installation in isasopax sensors.; The upper (tapering) part of the bell-shaped magnetic circuit 1 is divided into three parts 2, in the middle of each part there are three versions, under the phase conductors 3 of the primary winding 4, Gaps 1 (see, fig 2) dividing the magnetic conductors on the fpH jaws are made of a magnetically insulated 1CH plate (e.g., copper) or by applying a galvashaplastic coating. The magnetic circuit also has slots A located in planes passing through the phase apertures and the vertical axis of the magnetic circuit. In the upper part of these slots, magnetic field sensors 5 are installed. The sensors can be either inductors or Hall sensors, and to further reduce the influence of external magnetic fields on the sensors, the magnetic field surface at the sensor installation site can be made with protrusions 6 (see Fig. 3a). Fig. 36 shows examples of installation in peaks of D sensors of a field in the form of an induction coil (see Fig, 3b) or a Hall converter (see Fig. Sv). The magnetic core can be made of ferrous material. The device works as follows. In normal mode, when the load current passes through the phase conductors, each phase current magnetizes the corresponding section of the magnetic circuit. The magnetizing currents of the sections excite the signal in the respective sensors. The total signal of the sensors is absent, since the sum of the nervous currents in the phase conductors is at any time equal to fsy№S}, and the mutual influence of the phase currents is absent, since each phase conductor has essentially its own insulated magnetic conductor. In the case of the closure of a single phase conductor to earth, zero sequence currents occur. The zero-sequence currents cause the corresponding magnetization of the magnetic circuit, as a result, a total signal ya output of the sensors arises. In this case, the sensitivity is about three times higher than the known | 3j transformer. Claim 1, a zero-sequence current transformer containing a three-phase primary winding, a magnetic circuit, covering the primary winding and magnetic field sensors located on the magnetic core, characterized in that, in order to reduce reliability and reduce the threshold of sensitivity, the magnetic conductor is in the form of a bell-shaped body, divided by height by radial gaps, in which electrically conductive plates are installed, into three equal parts, symmetrically in the middle of each part of the magnetic circuit The inclined through holes, the axes of which intersect on the axis of the magnetic circuit, perpendicular to 5739 meters to the base, are not passed, the primary windings pass through the holes, and in each part of the magnetic circuit in the plane of the hole passing through the axis and the axis of the microprocessor, the radial shells are Magnetic field sensors placed over the holes are installed. 2. A transformer according to claim 1, about tl and - due to the fact that on the Tstx magnetic circuit in the places where the sensors are installed the fields are filled with vials. 6 Sources of information taken into account during the examination 1. Current transformers of zero sequence of cable type TNP-2, TNP-4, TNP-7, TNP-12. Catalog. Kiev, iad-in of the Academy of Sciences of the Ukrainian SSR, 1951, p. 3-12. 2.T. technical conditions for the transformation of the topu of the current of the 10yA own sequence TU 16.517-390-70. 3. The patent of England No. 1194237, class, HI T, i975i. FIG. one Phie.g