SU1536451A1 - Read relay-type current transmitter - Google Patents

Abstract

The invention relates to electrical engineering and can be used to control current in protection and automation circuits of three-phase AC installations. The purpose of the invention is to increase the sensitivity, reliability and expansion of the field of application. The sensor reed switches are located near the busbars and are equipped with a system for compensating the magnetic fields of the busbars of the installation consisting of high-resistance windings connected through adjustable resistors to low-resistance windings. Each reed switch is equipped with two high-resistance windings and two low-resistance windings connected to the corresponding windings of other conductors, and adjustable resistors are selected in such a way that low-resistance windings compensate the magnetic fields of other tires to the maximum. The proposed compensation system allows the sensor to be used in installations with an arbitrary arrangement of busbars, increasing its sensitivity and reliability, since the actuation of a separate reed switch depends mainly only on the amount of current in the bus being monitored. 1 il.

Description

The invention relates to electrical engineering and can be used to control current in protection and automation circuits of three-phase AC installations.

The purpose of the invention is to increase the sensitivity, reliability and expansion of the field of application of the sensor.

The drawing shows a diagram of the proposed current sensor.

The current sensor on the reed switches is designed for three-phase electrical installation and contains three current-carrying buses 1 - 3, reed switches 4-6, six adjustable resistors 7 - 12. The reed switch 4 is equipped with two low-resistance 13 and 14 and

two high resistance 15 n 16 windings. The reed switch 5 is equipped with two low-resistance 17 and 18 and two high-resistance 19 and 20 windings. The reed switch 6 is equipped with two low-resistance 21 and 22 and two high-resistance 23 and 24 windings. The high resistance winding 15 of the reed switch 4 is connected via an adjustable resistor 7 to the low resistance winding 17 of the reed switch 5, and the high resistance winding 16 of the reed switch 4 is connected through an adjustable resistor 8 to the low resistance winding 22 of the reed switch 6 through the adjustable resistor 9 to low impedance winding 21 reed switch 6, and high impedance winding 20 reed switch 5 CELL

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The cut resistor 10 is connected to the low impedance winding 14 of the coil to 4. The high impedance winding 23 of the reed switch 6 is connected via an adjustable resistor 11 to the disconnection coil of the reed switch 13 of the reed switch 6. 5 with windings located near the busbar 1, the reed switch 6 - near the busbar 2, the reed switch 7 - near the busbar 3.

The sensor works as follows.

Before switching on the electrical installation, the device is set up to eliminate the effect of the reed switch of one bus on the magnetic fields of the buses of other phases. To this end, a current is created in one of the buses, for example 1. Controlling the EMF value on the winding 19, adjust the resistor 7 to achieve the minimum difference of magnetic flux from the bus 1 and winding 17 in the working gap area of the reed switch contact details 5. Control the value of the EMF on the winding 23, adjust the resistor 8 to achieve the minimum difference magnetic fluxes from tire 1 and winding 22 in the area of the working gap of the contact parts of the reed switch 6. Similarly, the influence of the magnetic field of the tire 2 on the reed switches 4 "6, tires 3 on the reed switches 4 and 5 is eliminated. High-resistance windings are sources for low impedance outflow and work in current transformer mode.

After commissioning of the electrical installation and the emergence of the emergency mode, the reed switches 4-6 trigger when the current in their bus 1-3 exceeds the reed switch response parameter.

The principle of compensation of extraneous magnetic fields used is suitable regardless of how the conductors of the three-phase system are located in the cross section.

Claims (1)

Claims of a Current Sensor on Reed Switches Responding to Current Changes in a Three-Phase Electrical System, Including Three Reed Switches and Three Current Busbars, characterized in that, in order to increase sensitivity, reliability and expansion of the field of application, it is equipped with six adjustable resistors. it is equipped with two high resistance and two low resistance windings and is located near one of the busbars, with the first high resistance of the first reed switch connected via the first adjustable resistor to the first the second coil of the second reed switch and the second high-resistance winding of the first reed switch is connected via a second adjustable resistor to the second low-resistance winding of the third reed switch; the second low impedance winding of the first reed switch, the first high impedance winding of the third reed switch through the fifth adjustable resistor is connected and with the first nonecohm winding of the first reed switch, the second high impedance winding of the third reed switch through the sixth adjustable resistor is connected to the second low impedance winding of the second reed switch.