SU1014087A1 - Three-phase electric installation protection device - Google Patents

Description

2. The device is no p. 1, which is based on the fact that the threshold element is designed as a triac, the anode and cathode of which are connected to the secondary windings of transformers, in parallel with which a chain is connected, consisting of a series-connected diode a resistor and a capacitor, moreover, a dynistor is connected from the junction point of the resistor and the capacitor in the forward direction, the cathode of which is connected to the control electrode of the triac.

The invention relates to electrical engineering and can be used, for example, to protect three-phase motors from non-full-phase modes and overloads. A device for protection of three-phase electric motors is known, which contains measuring current transformers, a comparison organ in the form of a phase-sensitive detector, and an actuator in which each of the measuring transformers has two primary windings with a different number of turns included in different phases of the electric motor power supply. engine from working on two phases and from short circuits and does not protect the motor against overload, for example at currents 1.25-2, and does not control breakage of two and three phases, which reduces the functionality of the device. This disadvantage is due to the fact that the primary windings of instrument transformers have different numbers of turns and different polarities. The closest to the technical essence of the invention is a device for protection of electrical installations containing two measuring transformers with two primary windings connected to adjacent phases of the network, and a threshold element, as well as a phase-sensitive detector, two T-switches and a distor G 2. However, a large number of elements reduces the reliability of the known device. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that the primary windings of transformers have an equal number of turns and the same polarity, while the input of the secondary windings connected in series is shunted by a threshold element connected to an actuator connected to the supply mains. Moreover, the threshold element is made in the form of a triac, the anode and cathode T are connected to the secondary windings of transformers, in parallel with which a chain is connected consisting of a series-connected diode, a resistor and a capacitor, and a distor, cathode which is connected to the control electrode of the triac. The drawing shows a schematic diagram of the proposed device. The device contains measuring transformers 1, 2 with two primary windings 3, and 3, 5 connected to the adjacent phases of load circuit 6, and the actuator 7. The primary windings of these transformers have an equal number of turns and the same polarity, and the output of the secondary windings 8 , 9 is shunted by a threshold unit 10. The device operates as follows. In the presence of current in all phases 3, t, 5, the secondary windings 8, 9 (or one of the replacing common windings) induce two current pulses shifted one relative to the other by 120 electrical degrees, which are repeated every EO electrical degrees. These pulses are fed to the input of the executive oragan 7, which is triggered and signals the operability of the load circuit 6. When the current in phase 3 is lost through the primary windings, 5 transformers

The maters 1, 2 flow counter currents and on the secondary windings 8, 9 the pulses are mutually destroyed. In this case, the executive body 7 disappears and with its contacts 11 it switches off the load 6.

When an interruption of phase 4 on the secondary winding 9, the pulses are also not induced, and a single pulse from the winding 8 of the next 360 degrees is not enough to keep the actuator 7 in the on state, which drops out and disconnects the load 6. When the phase 5 breaks, the executive 7 turns off load 6 is similar, as in the event of a break in phase 4.

With the simultaneous break of two or three phases, the pulses from the secondary

windings 8, 9 disappear and executive authority 7 disappears.

The amplitude of the voltage pulses of the secondary windings 8, 9 is proportional to the current value of the primary circuit. At a certain current value of the primary circuit, the amplitude of the voltage pulses on the secondary windings 8, 9 becomes sufficient for the breakdown

the threshold unit 10, which opens and shunts the control circuit of the executive unit 7, the latter disappears and disconnects the load 6. To tune out the device for short-term overloads caused by motor starting currents, the threshold unit 10 is timed as shown in the drawing.

The proposed device improves the reliability of protection of electrical installations.

Claims (2)

1. DEVICE FOR PROTECTING A THREE-PHASE ELECTRICAL INSTALLATION, containing two measuring transformers with two primary windings connected to adjacent phases of the network, and a threshold element, characterized in that, in order to increase reliability and simplify the device, the primary windings of transformers have an equal number of turns and the same polarity, and the output of the secondary windings connected in series is shunted by a threshold element connected to an actuating element connected to the supply network. 2. The apparatus of claim. 1, a t e n ichayu sch.e with I in that the threshold element is a triac, the anode and cathode which are connected to the secondary windings of the transformers, which is included in parallel tsepoch ka consisting of series-connected diode _w a resistor and a capacitor, and a dynistor is connected from the connection point of the resistor and the capacitor in the forward direction, the cathode of which is connected to the triac electrode of the triac.