SU1226359A1 - Short circuit indicator - Google Patents

Abstract

The invention relates to electrical measuring equipment, in particular, to devices capable of detecting a short circuit in branched transmission lines. The purpose of the invention is to expand the range of application of the indicator by applying it in high-voltage networks with voltages up to 100 kV. The pointer contains an inductive current sensor 1, a first threshold element with magnetic memory, made in the form of a reed switch 2, an excitation winding 3 and 4, a permanent magnet 5, a resistor 6, an expander 7, a second threshold element 8, output terminals 9 and 10. Winding 3 and 4 imsedt nedeina (L 13 th th: OO 01

Description

The number of turns and the cross-section of wires are connected counter-after: conformingly. The threshold element 8 can be performed as an element of the semiconductor structure of the p-h-p-h type (thyristor). Reed switch 2 has a high voltage 1226359

Fifth insulation layer 1I, transparent to the magnetic field. The pointer is housed in an insulated housing 12. The short-circuit current passes through line 13, 1 hp f-ly, 1 ill.

one

The invention relates to electrical measuring equipment, namely, devices capable of detecting a short circuit in branched transmission lines.

The purpose of the invention is to expand the scope of the pointer by applying it in high-voltage networks up to 110 kV.

The device contains an inductive current sensor 1, the first threshold element with a magnetic memory block, made in the form of a reed switch 2 ,. first and the second windings 3, 4 of the excitation and the permanent magnet 5, as well as the stor 6, the windings 3 and 4 of the excitation have an unequal number of turns and a cross-section of wires, are interconnected in series with each other and connected via a rectifier 7 to the current sensor 1, and with a larger number of turns of wire of smaller cross section, it is shunted by a chain consisting of series-connected resistors 6 and the second threshold element 8, made, for example, on the basis of a four-layer semiconductor phpti structure, and a permanent magnet 5 is arranged It is false in such a way that its polarity coincides with the polarity of the magnetic field of the perge winding 3 excitations with a smaller number of turns of a wire of a larger cross section. The contacts of the reed switch 2 are connected to the output terminals 9 and 10 of the device. behind. The second threshold element 8 can be made in the form of a thyristor, the control electrode of which is connected to the cathode via a variable resistor. The reed switch 2 is separated from the rest of the elements by a high-voltage insulating layer 11, transparent to the magnetic field, and the entire device is placed in an insulating housing 12.

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When a short circuit current passes through line 13. An alternating voltage is induced in the induction current sensor 1, which, after rectifier 7, is applied to the first and second windings 3 and 4 of the reed switch 2. Because the voltage on the second winding 4 is excited; the number of turns of the wire of smaller cross section exceeds the trigger voltage of the threshold element 8, then it turns out to be shunted by a series-connected threshold element 8 and a resistor 6. The current passing through L the first winding 3 of the excitation with a smaller number of coils wires of larger cross section p form a magnetic field directed in the same direction as the magnetic field of the permanent magnet 5. As a result, the magnetic field increases, penetrates the high voltage insulation layer and causes the activation of the reed switch 2. In the closed state of the contact. is held by the magnetic field of the permanent magnet 5, which ensures the preservation of information about the presence of a short circuit after disconnecting the line.

In the normal mode, the operating current flows through line 13, which induces an alternating voltage in the inductive current sensor 1. After drilling, this voltage goes to the first and second windings 3 and 4 when the reed switch 2 is excited. The voltage on the second excitation winding 4 is less than the pickup value of the threshold element 8 and the magnetic flux created by the second excitation winding 4 neutralizes the magnetic field created by a permanent n. magnet 5, because it has the opposite direction. Reed switch 2 opens its contact. The first excitation winding 3 also creates a magnetic field- directed against the magnetic field of the second excitation winding 4, but much smaller than it in magnitude, as it is wound with a smaller number of turns and a larger section wire.

Thus, the absence in the short circuit indicator of the mechanical parts of a bulky voltage divider, as well as the presence of a simplest threshold device, makes its operation more reliable and not requiring labor costs for maintenance and repair, and will find application in a 6-10-110 kV network,

Claims (2)

1. Short circuit indicator / containing an inductive current sensor, resistor, first threshold element with a magnetic memory unit, made in the form of a reed switch with a pair of closing contacts, with the first and second excitation windings and a permanent magnet, and the closing contacts of the reed switch are connected to the output terminals different in that. Editor N. Yatsola Compiled by E. Kusch Tehred I.Popovich Proofreader A.Ferents Order 2127/44 Circulation 728 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 0 five 0 that, in order to expand the field of application, a rectifier, a second threshold element, a high-voltage insulation layer separating the reed switch from the excitation windings, are inserted, the excitation windings are connected in series and counter to the first terminals of the rectifier, the second terminals of which are connected With an inductive current sensor, the first excitation winding has a larger cross section and fewer turns, the second excitation winding has a smaller cross section and more turns, and is shunted by a chain of series GOVERNMENTAL second threshold element and a resistor, a permanent magnet .raspolozhen so that its polarity. coincides with the polarity of the magnetic field of the first excitation winding. 2. The pointer under item 1, characterized in that the second threshold element can be made as an element of a semiconductor four-layer p-h-p-h structure (thyristor), the control electrode of which is connected with the cathode through a variable resistor.