SU63863A1 - Thyratron device - Google Patents

Description

The proposed device is intended for testing high-speed relays and makes it possible to determine whether the time of action of the tested relay is outside the permissible limits and whether the contacts do not have any vibration at the moment of switching on.

For this purpose, a thyratron is used, switched on according to the invention as follows: the anode of the thyratron comes to the positive pole of the DC source, which also includes the winding of the test relay, the cathode to the midpoint of the potentiometer connected between the positive and negative poles, and the grid through resistance - to the point between the resistance, adventure to the positive pole, and the capacitor, adventure to the negative pole. With such a circuit for switching on, the thyratron does not light up if the relay contacts included in the grid circuit activate the capacitor charging earlier, but ignites when the relay is slowed down and the contacts vibrate.

The invention is illustrated in the drawing; in FIG. 1 and 2 which shows the electrical circuit of the device.

A test circuit for a relay operating on / closure contacts is shown in FIG. one.

When the switch 1 is closed, the voltage is applied through an additional resistance 3 (switched on to receive an appropriate constant time) on the winding 10 of the relay under test and simultaneously on the anode of the thyratron 2 and the circuit of series-connected resistance 7 and capacitor 9. At the moment of switching on, the thyratron grid connected the upper plate of the capacitor 9 through the resistances 5 and 6, has the potential of the negative wire, i.e., negative with respect to the cathode of the thyratron, which is under the midpoint potential of the potentiometer 4, 11 and the thyratron cannot open. Further, as the capacitor is charged, the voltage on it will increase and when it becomes equal to the voltage drop across resistance 11 (ignoring the ignition voltage on the thyratron grid due to its smallness, but which can also be easily taken into account), the tirathron will open . The values of the resistance 7 and the capacitance of the capacitor 9 necessary for the ignition of the thyratron to occur after a specified time interval equal to, as will be indicated below, the maximum permissible time of the relay operation, can be easily calculated. If the test relay 10 closes its contacts 12 earlier than the capacitor 9 is charged before the voltage, at which the thyratron 2 opens, the grid circuit of the latter will be bridged, the positive voltage will not be applied to the grid, and the thyratron will not open. In the case of contacts 12 vibrating, opening them will also lead to positive pressure on the thyratron grid and unlocking it. When the contact vibration is insignificant and it is desirable to determine the time before the first contact closure, close switch 8. Then, at the first contact closure of the tested relay, capacitor 9 is discharged and upon further opening of the contacts due to vibration, the positive voltage will not be applied to the thyratron grid. If the time of action of the tested relay is longer than the time of charging the capacitor to the voltage U, the thyratron will open and light up after the relay contacts are closed, which will serve as an indication of the inconsistency of the relay time characteristics to the specified conditions.

Thus, this device makes it possible to simply determine the time of the relay operation, without resorting to oscillography, and does not require the use of any measuring devices and preliminary calibration.

In the event that the relay 10 is operated to open the contacts, it is activated as shown in FIG. 2

Subject invention

Claims (2)

1. A thyratron device for the control of electrical relays, a tl and h and s. This is because, in order to test the relay for the response times and for the vibration of the contacts, the anode of the thyratron is connected to the positive pole of the DC source, which also includes the winding of the test relay, the cathode to the midpoint of the potentiometer connected between positive and negative poles, and the grid, through resistance, to a point between the resistance, which is driven to the positive pole, and the capacitor, which is driven to the negative pole, so that the thyratron does not light up if the switched on relay contacts mesh previously charging capacitor and during slow zazhigals triggered relay contacts and vibration. 2. In the device according to claim 1, use a switch to discharge capacitors. FIG. one .g., /