SU1265879A1 - Device for measuring intercontact gap of electromagnetic relay - Google Patents

Abstract

The invention relates to devices for monitoring parameters of an electromagnetic relay, in particular to devices for monitoring a solution of relay contacts. The purpose of the invention is to simplify the device. When the power source 13 is turned on, a negative potential is applied to the base of transistor 5 through contacts 2.2 to resistor 9. Transistor 5 opens and current flows through its collector circuit and winding 1 of the relay. The relay is activated, pins 2 and 3 open, and pins 2 and 4 close. Now, through the closed contacts 2, 4, the voltage E arrives at the base of the transistor 6. It opens, the flip-flop trips and the transistor 5 is locked. Through the transistor 5 and the winding 1 of the relay, the current stops, as a result of which the contacts 2 and 3 are closed, and the contacts 2 and 4 are opened. Again, through the contact system 2, 3, the voltage E goes to the base of the transistor 5. Transistor 5 opens again, the trigger triggers out, transistor 6 is locked. At the same time, the relay triggers and (L) the moving contact 2 moves to contact 4. After some time, determined by the gap between contacts 2 and 4. they close, voltage E is applied to the base of transistor 6 and the trigger reverses again. In the circuit, auto-oscillations occur, whereby the contact 2 relay is in a state of continuous oscillation. 00 co.

Description

At the output of the trigger, we obtain a sequence of rectangular pulses, the repetition frequency of which depends on the size of the relay contact gap. Frequency meter 12 (frequency meter) shows the size of the gap, used as meter 12

frequency meter, calibrated in units of the gap. For calibration of the frequency counter, reference plates of various thickness are used. To do this, a reference plate is set between the relay contacts and the gap is determined. 1 hp f-ly, 1 ill.

The invention relates to devices that serve to determine the inter-contact clearance of an electromagnetic relay.

The purpose of the invention is to simplify the design.

The drawing shows a diagram of a device for determining the inter-contact gap of an electromagnetic relay.

The device contains leads for connecting winding 1 of a controlled relay, moving contact 2 and fixed contacts 3 and 4, a symmetrical trigger made on transistors 5 and 6 and resistors 7-11, measuring unit 12 and leads for connecting power supply 13. To determine the contact gap of the monitored electromagnetic relay, winding 1 is connected to the collector circuit of transistor 5. The fixed, closed contact 3 is connected to the base of transistor .5 - the first trigger circuit and open contact 4 to the base of transistor 6 - the second trigger circuit. The moving contact 2 is connected to one of the terminals for connecting the power supply 13. The output voltage of the trigger is supplied to the measurement unit 12, which can be used as a frequency meter, calibrated in units of the gap. For graduation of the frequency counter, reference plates of various thickness are used. A reference plate is placed between the relay contacts and the gap is determined. After that, the relay is connected to the trigger circuit and the frequency of self-oscillations is determined, which corresponds to a given value of the contact gap. This process is repeated for different values of contact data.

the gap and conduct a calibration of the frequency in units of the gap. Due to the fact that the frequency of auto-oscillations of a relay contact depends both on the size of the intercontact gap and on the dimensions of the relay, the calibration is carried out for this type of relay, and the frequency meter has a separate calibration for each type of relay.

The operation of the device is as follows.

When the power source 13 is turned on, a negative potential is applied to the base of transistor 5 through pins 2 and 3 and resistor 9. Transistor 5 opens and current flows through its collector circuit and winding 1 of the relay. The relay is activated, pins 2 and 3 open, and pins 2 and 4 close. Now, through closed contacts 2 and 4, the voltage E | enters the base of the transistor 6. It opens, the trigger overturns and the transistor 5 is locked. Through

the transistor 5 and the winding 1 of the relay current stop, as a result of which the contacts 2 and 3 are closed, and the contacts 2 and 4 are opened. Again, through the contact system 2 and 3, the voltage E arrives at the base of the transistor 5. The latter opens again, the trigger overturns, the transistor 6 is locked. At the same time, the relay is activated and the moving contact 2 moves

to contact 4. After some time, determined by the gap between contacts 2 and 4, they close. An EC voltage is applied to the base of the transistor 6, and the flip-flop again.

Auto oscillations occur in the scheme,

whereby the contact 2. the relay will be in a state of continuous oscillations. At the output of the trigger, we obtain a sequence of rectangular pulses, the repetition frequency of which depends on the size of the relay contact gap. The frequency meter 12 (frequency meter) indicates the size of the gap.

Claims (1)

1. A device for measuring the contact gap of an electromagnetic relay, containing terminals for connecting a winding of a controlled electrical switch relay, terminals for connecting a switching contact group of a controlled electromagnetic relay, a moving contact oscillator excitation generator of a controlled electromagnetic relay, and a block for measuring the contact gap characterized by that, in order to simplify the device, the oscillator of the oscillations of the moving contact switches ayuschey contact group controlled electromagnetic relay is formed as a symmetrical two latch transistors and resistors and provided with terminals for connecting a source of DC voltage, and a first terminal for connecting the electromagnetic coil controlled the relay is connected to the collector of one of the transistors, the collector of the other transistor is connected to the input of the measuring unit, the second terminal for connecting the winding of the monitored. electromagnetic relay is combined with the first terminal for connecting the moving contact of the switching contact group of the monitored relay and connected to one of the terminals for connecting a constant source on the voltage, the output for connection of the first fixed contact of the switching contact group of the controlled electromagnet relay through the limit conductive resistor included in the first circuit start trigger, and output for connecting a second fixed contact of the switching contact groups controlled electromagnetic relay via limiting resistor included in the second latch trigger circuit and the other terminal for connecting a DC source connected to the emitters of transistors. 2, the device according to claim 1, wherein the frequency meter is used as an intercontact gap measuring unit, which is equipped with an additional scale, calibrated in units of length.