SU959206A1 - Apparatus for protecting three-phase electric installation against two-phase operation - Google Patents

Description

The invention relates to electrical engineering. A device for signaling the disappearance of phases, comprising a p-phase expander, is known; the output of which includes a sensitive body controlling the executive body, and the sensitive body executed as a blocking generator, the output winding of which is connected to the emitter base of the input transistor of the executive body, the collector of the input transistor is connected to the measuring capacitor and through a diode with an integrating capacitor and the base of the output transistor executive body 1. The disadvantage of this device is; 1 that it sigalizes only in case of loss of voltage in one of the phases in In addition to this, this device has a large number of its constituent elements, which significantly complicates it. The closest to the technical essence of the present invention is a device for protecting a three-phase electrical installation from two-phase operation, containing three input transformers with cores made of a material with a rectangular magnetization loop, loaded on the side of the secondary windings by resistors whose single-pole secondary terminals of which are connected to the input of a three-phase supra miter, a control unit for the sequence of current pulses with an executive unit, and a source of operating current, with a three-phase supramitter The spruce is implemented as a half-wavelength diode collector, and the current pulse train control unit is executed on the thyristor and dinistor; and through the resistor with a positive power source, the cathode of the triristor directly, and the cathode of the dynistor through a resistor are connected to the common point of the secondary windings of the transformer 2. However, when Disable Phase load from the network at the output of this device, a signal appears to indicate a malfunction, tLs there is a false response of the device, which in turn reduces the reliability of the device.

The purpose of the invention is to eliminate false claims and increase reliable operation of the device.

The goal is achieved by the fact that three current transformers, loaded on the side of the secondary windings by resistors, the unipolar clamps of the secondary windings are connected to the device for three-phase electro-ventanoeck captures from the secondary windings, a single-pole terminals of the secondary windings are connected to the three-phase terminal of the diodes, the control unit a sequence of current pulses with an executive body, performed on three resistors, a diode, a dynistor, and a trinistor, and the cathodes of the three phases of the rectifier are connected to the anistor of the dynistor and through the first resistor of the control electrode of the trinistor, whose cathode is directly, and the cathodes of the dynistor and the diode are connected to the common connection point of the secondary windings of the current transformer and the power supply minus through the second resistor, plus the power supply through the third resistor connected to the diode anode and connected the anode of the trinistor, a resistive divider is inserted, consisting of two series-connected first and second resistors, a capacitor and a transistor connected by a collector through the third resistor to the plus source The supply nickname and the emitter to the anode of the trinistor while the base of the transistor is connected to the midpoint of the resistive divider, the first resistor of which is connected to the anode of the dunistor, and the second resistor by the second end, to the common connection point of the secondary transformers and minus the power source, at the same time, a capacitor is connected to the second resistor-divider resistor.

The drawing shows a diagram of the device.

The device contains three input current transformers 1-3, loaded on the side of the secondary windings of the transformer by resistors 4-6, power supply ± Е, diodes 7-9 half-wavelength transformers, cathodes that are connected to a common point and connected to the anode of the dynistor 10. Through the resistor 11 to the anode of the dynistor 10 is connected to the control electrode of the transistor 12. To the cathode of the dynistor 10 the cathode of the diode 13 is connected, the anode of which is connected to the plus of the power source + B through the resistor 14. The cathode of the trinistor 12 directly, and the cathode of the downstream through resistor 15 are connected

with the common point of the secondary windings of the transformer and the minus of the power source -E, resistive divider 16 and 17 is connected between the anode of the dynistor 10 and the cathode

of the transistor 12, the capacitor 18 is connected in parallel with the resistor 17, the collector of the transistor 19 is connected to the anode of diode 13, the emitters anode of transistor 12, and the base is connected to the common point of the resistive divider 16 and 17.

The device works as follows.

In the initial state, the dynistor is 10, three

nistor 12 and transistor 19 are closed. Currents

in the primary windings of transformers 1-3

are missing. Through resistor 14, diode 13 and

5, the resistor 15 is flowing current from the power source. NIN E. The output of the signal about the normal operation of the electrical installation (voltage drop across the resistor 15).

When you turn on the load in the primary windings of transformers 1-3 current flows. In this case, the voltage on the secondary windings of transformers 1-3 and a positive voltage on the anode of the dynistor 10, the control electrode of the tristor 12 and the base

The transistor 19, which opens in this case, the open trinistor and the transistor 19 short-circuit the anode of the diode 13 to the common wire of the circuit and the current through the diode 13 does not flow. At the output of the circuit, a signal of normal operation appears in the form of a voltage drop across the resistor 15 due to the current flowing through the resistor 15 and the distor 10. If the voltage is lost in one of the phases, go to the open of one of the: phases in the load in one of the transformers 1-3 current will not flow and the current flowing through dynistor 10 will fail to zero. In this case, the dynistor 10 is closed, and the trinistor 12 and triode 19 remain open (divider 16 and 17 are selected so that transistor 19 is burned, if on the secondary ob-.

 a coil of at least one of the transformers 1-3 is the voltage) shorting the anode of the diode 13 to the common wire. At the exit of the circuit, a low voltage level signaling an accident is formed.

five :

When the load is switched off, there are no loads in the primary limbs of the to1S transformers. The dynistor 10 and the transistor 19 turn out to be closed and through the diode 13 and the resistor 15 0 flows the current of the source E creating a high voltage level at the circuit output.

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Thus, when the load is disconnected, there are no false signals about phase loss.

This device allows you to eliminate false srabatann and increase reliability.

Claims (1)

Claim A device for protecting a three-phase electrical installation against two-phase operation, containing three current transformers connected to the network, loaded with resistors from the secondary side *, unipolar terminals of the secondary windings are connected to the input of the three-phase rectifier on the diodes, the current pulse sequence control unit with the executive body, made on three resistors ₍ diode, dinistor and trinistor, and the cathodes of the diodes of a three-phase rectifier are connected to the anode of the dinistor and, through the first resistor, a control electric d of a trinistor, whose cathode is directly, ⁵ and the cathodes of the dynistor and diode through a second resistor are connected to a common connection point of the secondary windings of the current transformers and the minus of the power supply, while the plus of the power supply is connected to the diode anode through the third ²⁰ * torus and connected to the anode of the trinistor, characterized in that, in order to eliminate false triggering and increase the reliability of the device, a resistive divider is introduced into it, consisting of two series-connected first and second resistors, cond a transistor and a transistor connected by a collector through the third resistor to the plus of the power source, and by the emitter to the anistor of the trinistor, while the base of the transistor is connected to the midpoint of the resistive divider, the first resistor of which is connected to the anistor of the second terminal and the second resistor to the common the connection point, the secondary connections of the current transformers and the minus of the power source, while a capacitor is connected in parallel with the second resistor ^{1 of the} resistive divider. ¹