SU366503A1 - RELAY TIME OF PERIODIC INCLUSIONS - Google Patents

Description

one

The device relates to the field of automation and is intended for non-contact periodical switching on for a determined time an executive electromagnetic device of automation, for example, a relay, a valve, a traction electromagnet, etc.

Various relays of periodic inclusions are known, containing the time specifying the RC circuit and the switching thyratron, in the center of which the winding of the electromagnetic relay is included. The disadvantages of opposing time relays include the difference between the duration of the first and subsequent time exposures; in the circuits of known time relays, the stability of generated time exposures sharply worsens with increasing relay power.

The proposed time relay allows the creation of long duration time exposures that are adjustable over a wide range, and the period of the first and subsequent relays does not change.

The proposed time switch differs from the known ones in that the capacitor of the time of the master circuit is connected to the grid of the thyratron through a resistor, in parallel to which a winding of the two-winding electromagnetic relay is connected via a rectifier.

The drawing schematically depicts the time relay periodic inclusions. It contains a cold cathode thyratron T, an electromagnetic relay P, resistors Ri-Ri, capacitors Ci-С /. “D1-Dz-Time diodes; the drive circuit is formed by a resistor O (M Ri and capacitor Co.

The device works as follows. When the relay is switched on to the network, the current, rectified by the separation diode D1 and the smoothing capacitor C b, capacitor Co is charged through the resistor i. As soon as the voltage on capacitor C reaches the ignition voltage of the thyratron T, it ignites. Through the primary winding of the relay, the rectified one-sided current begins to flow, and the relay turns on. At the same time, in the secondary winding of the relay, it is transformed by the variable component of the rectified single-half-current flowing through the primary winding of the relay, the voltage. The voltage rectified by diode Dz and capacitor C is supplied to the grid circuit of the thyratron T. Thus, the capacitor Cz starts through the potentiometer Rz and the discharge resistor Rs to discharge into the grid-cathode gap of the thyratron T, maintaining its burning in the dips between the pulses of rectified sinusoidal current for a certain time. Resistance

of the discharge circuit is less than the resistor RI, but the process of discharge of the capacitor Ca prevails (Above the charging process. When (The voltage on the potentiometer Rz equal to the suppression voltage T of the thyratron T over the grid-cathode gap, the Tiraratron T goes out when co-condenser C decreases to zero, but if the voltage supplied to the grid circuit of the thyratron exceeds the extinguishing voltage of the thyratron, the capacitor Cz will recharge to negative voltage. When the capacitor Cz is discharged, the thyratron T goes out in dips between pulses of direct current, and the relay is disconnected. The supply to the discharge circuit of a voltage capacitor from the secondary winding of the relay allows an increase in the time during which the relay is in the isolated state, increasing the stability of the time delays due to deeper discharge capacitor time setting RC-iKOHTypa and equalize the period of the first and subsequent time delays.

Subject invention

Time relay of periodic inclusions, containing the Brem driving RC - circuit, KIOM mutating thyratron, in the anode circuit of which one of the windings is connected | Electromagnetic relay, resistor and diode, in order to increase the reliability of the relay, capacitor

: time the driver of the RC circuit is connected to the grid of the thyratron through a resistor, in parallel with which another winding of a two-winding electro magnetic relay is connected via a diode.