SU951193A1 - Device for checking inductivity coils - Google Patents

Description

The invention relates to an electrical measuring technique and can be used to control inductors, windings of transformers without dismantling them and removing them from the core.

Instruments are known for detecting short-circuited turns in induction coils, the principle of action of which is based on the breakdown of self-oscillations of the generator due to the damping introduced by the coil with short-circuited turns 1D.

A disadvantage of this device is the inability to control the coil with the core of the apparatus, which requires dismantling the latter and removing the coil from the core.

The closest in technical essence is a device for detecting short-circuited turns in inductive elements 1x, containing a master oscillator of rectangular pulses, an amplifier, a unit for making and starting with electromagnetic relays, a meter of short-circuited turns, and a norm-reject indicator. The controlled coil is part of the oscillating circuit of the C2D master oscillator.

However, this device has low operational reliability due to the presence of electromagnetic relays, low sensitivity and the inability to detect a break in a controlled coil.

The purpose of the invention is to increase the sensitivity of the device and the expansion of functionality due to

10 control breaks.

This goal is achieved by the fact that in a known device for controlling inductance coils containing a series-connected generator

15 right-angled pulses and a pulse current amplifier, as well as a dial indicator, an autotransformer, a resistor, a diode, a gas discharge thyratron, a capacitor, a variable resistor, a two-pole switch, and a reference inductor are entered, the output of the pulse current amplifier is connected via a variable resistor to the input winding autotransformer, the output winding of which is connected to a bipolar switch, opening contacts of which are connected to terminals for connecting a controlled induction coil Nosta and

30 make contacts - with the leads of the reference inductance; the first lead of the primary winding of the autotransformer is connected via a direct-connected diode to the anode of the gas discharge thyratron, the cathode of which is connected through a switch indicator, which is uploaded by a capacitor, to the second lead of the primary winding of the autotransformer, cathode through a resistor connected to the control electrode of the gas discharge thyratron.

The drawing shows a circuit diagram of the device.

The device contains a generator of 1 rectangular pulses (for example, a multivibrator), a pulse current amplifier 2, an autotransformer 3, a switch indicator 4 (for example, a microammeter), a capacitor 5, a gas discharge thyratron b, a diode 7, a reference inductance coil 8, a variable resistor 9 , bipolar switch 10, resistor 11, controlled by the coil 12 inductance.

The operation of the device is based on measuring the amplitude of self-induction EMF pulses.

The device works as follows.

A generator of rectangular pulses produces rectangular pulses which, amplified by a pulsed current amplifier 2, of negative polarity through an autotransformer 3, are fed to the reference inductance coil 8 (switch 10 is in Calibration state). The positive impulses of self-induction EMF arising in the primary winding of the autotransformer 3 open the gas discharge thyratron 6, and the dial indicator 4 registers the average amplitude of the pulses. At the same time, using the variable resistor 9, the arrow of the dial indicator 4 is set in the middle part of the scale, i.e. calibrate the device according to the reference inductance

Then, switch 10 connects the device to a controlled inductance 12 inductance. When the inductance coil 12 is operational, the needle indicator 4 remains in the same position.

If there are short-circuited coils in the coil, the consumption of electromagnetic energy increases, the amplitude of self-induction EMF pulses decreases, the thyratron 6 closes the arrow deflects to zero. If in

there is a break in the controlled coil, the autotransformer 3 remains unloaded, the amplitude of the pulses on the primary winding of the autotransformer 3 increases, and the needle indicator 4 deflects to the right of the scale.

This device, with high sensitivity and reliability due to the exclusion of electromagnetic relays, allows, without dismantling the equipment (in particular, removing the coil from the core), to monitor in the inductors of the fault type of Short circuit and Open circuit.

Claims (2)

1. Instrument for determining short-circuited inductors. Information sheet THEM. 1977, series IL 12-21.77, 1976, 1977. 2. Authors certificate of the USSR 509844, cl. G 01 R 31/06, 1976 (prototype),