SU1539856A1 - Time relay - Google Patents

Abstract

The invention is intended to create a delay in the inclusion of the executive body. The purpose of the invention is to increase the reliability of work and to expand the range of variation of load power. The time relay contains a diode bridge 1, an actuator / relay / 2, a thyristor 5, a resistor 6, an RC circuit 7, a threshold element 8, capacitors 9, 10, the first diode 11 and the contacts 13 of the sensor. The introduction of the second and third diodes 12, 14 and the connection of a diode 12 counter parallel to the serial circuit of the thyristor 5 and diode 11, as well as the connection of the contacts 13 through the resistor 6 to the capacitor 9 and through the diode 14 in parallel to the circuit from the series-connected diode 11 and capacitor 10 allows reduce the number of switching of relay 2 and close the pickup circuit current through the anode-cathode gap of the thyristor 5. 1 Il.

Description

The invention relates to a pulse technique and can be used in devices for program control of the executive body.

The purpose of the invention is to increase the reliability in operation by reducing the number of switching of the actuator and expanding the range of load power by closing the pick-up circuit current through the gap ^{1 of the} thyristor anode.

The drawing shows a circuit diagram of a device. .fifteen

The time relay contains a diode bridge

1, the input diagonal of which is connected through the executive organ_2 to the channels 3 and 4 of the network, thyristor 5 connected in series with resistor 20 6 to the output diagonal of bridge 1, a serial RC circuit 7 connected in parallel to thyristor 5, the control electrode of which is connected through a threshold element, for example dynis 25 torr 8, to the capacitor 9 of circuit 7, the capacitor 10 connected through the first diode 11 to the resistor 6, the second diode 12, connected counter-parallel [parallel to the serial circuit from 30 clearly connected thyristor 5 and diode

11, the closing contacts 13 of the sensor connected through a resistor 6 to the capacitor 9 and through the return diode 14 in parallel to the circuit from the series-connected diode 11 and the capacitor

10.

The time relay operates as follows.

When the device is turned on, when the contacts 13 are open, for example, if the material level is below the limit value, the thyristor 5 is locked, the actuator 2 is turned off, and the process of charging the capacitor 9 through the organ winding

2, bridge 1 diodes and loop resistors

7. After a certain period of time, the capacitor 9 is charged to the turn-on voltage of the dinistor 8, which is unlocked, and through it the capacitor E is discharged to the control electrode-cathode of the thyristor. Under the influence of this pulse, the thyristor 5 is unlocked and held open for 1-2 half-periods due to the discharge current of the capacitor 9 to the control electrode-cathode junction. The thyristor 5 shunts the output diagonal of the diode bridge 1, as a result, the actuator 2 is excited and some voltage drop is applied is connected to resistor 6. The capacitor 10 is charged through the diode 11 to the amplitude value of this voltage. Under the action of the voltage on the capacitor 10, the capacitor 10 is discharged through the diode 12 and the anode-cathode gap of the thyristor 5 to the resistor 6 in pauses between pulsed current pulses. This discharge current supports thyristor 5 in the open state and after the discharge of the capacitor 9 to the control circuit.

When the contacts 13 are closed, for example, when the set value of the level is exceeded, the resistor 6 is shunted through the diode 14, the capacitor 10 is discharged, the thyristor 5 is locked, and the organ 2 is turned off, since the closed contacts 13 are shunted by the resistor 6 at the same time, the capacitor 9 is not only turned off thyristor 5, but the charge of the capacitor 9 also stops. Therefore, when the level of the material decreases and the contacts 13 close again, the organ 2 turns on only after a certain time delay, set by the time constant of the circuit 7 and the threshold from dinistor piranha 8. This time delay eliminates frequent switching of the actuator 2 and its premature failure.

Claims (1)

claims Time relay containing a diode bridge, the input diagonal of which is connected through the actuator to the network terminals, a thyristor connected in series with a resistor to the output diagonal of the diode bridge, a serial RC circuit connected in parallel to the thyristor, the control electrode of which is connected through a threshold element to the capacitor KS circuit, closing contacts of the sensor, the first diode and capacitor connected through the first diode parallel to the resistor, characterized in that, in order to increase the reliability STI operation and extend the range of variations in load cardinality, it entered the second and third diodes, the second diode is connected in anti-parallel · serial circuit of the thyristor according included and the first diode, and shorting contact sensor podklyu5 1539856 ⁶ chen through a resistor to the capacitor RC circuit and through the third parallel diode of the first diode and capacitor.