SU1141470A1 - Device for energizing electromagnetic actuating mechanism - Google Patents

Abstract

A device for switching on an EXECUTIVE ELECTROMAGNETIC MECHANISM containing a thyristor, leads for connecting an actuator, leads for connecting a power source, a thyristor control cell and a common resistor, each of the thyristor control cells containing two capacitors, a resistor, a diode, a threshold element and a contact sensor. the object, the thyristor and the terminals for connecting the actuator are connected in series and connected between the terminals for connecting the source power supply, in each thyristor control cell, the first capacitor and resistor are connected in parallel, one of the terminals of this parallel circuit is connected to the common bus of the thyristor control cells, one of the plates of the second capacitor is connected to one of the terminals for connecting the power supply, position sensor of the two-position object and a diode connected in series, one of the terminals of the specified series circuit is connected to the other plate of the second capacitor and to one of the terminals of the threshold element, characterized by By the fact that, in order to simplify the choice of the element base by providing the actuator with contact sensors with both closing and opening contacts, as well as reliability, the control key is inserted into the device, a second resistor is inserted into each cell of the thyristor control, a common resistor connected between one terminal for connecting the power source and the common bus of the thyristor control cells, the control switch is connected between the common bus of the thyristor control cells and the control electrode of the thyris ora, in each cell the second resistor. is connected between the other output for connecting the power source and the other plate of the second capacitor,: the output of the series circuit containing the position sensor of the on-off object and the diode is connected to the common bus of the thyristor control cells, another output of the parallel circuit containing the first capacitor and the first resistor is connected to another output of the threshold element.

Description

The invention relates to automation and can be used to automatically activate an actuator when the state of two-position objects changes. A device is known that contains contact position sensors of two-position objects, each of which is connected in series with a storage capacitor, one lining of which is connected at a common point of two diodes connected in series between the primary winding of a pulse transformer, the second facing is connected to the middle point of the winding through a resistor and the input winding of the transformer is connected in parallel with the capacitor and the control transition of the thyristor connected in series with the actuator th fi 2. This device generates a LOAD ke powerful pulse of current when using low-power diodes, low-resistance resistor and a capacitor of small capacity, but it has a reduced reliability, since the transformer is applied, the relative complexity and reduced efficiency since the low-resistance resistor is used. It is also known a device for activating the actuator. This device contains a thyristor connected in series with the actuator between the power buses, control cells, consisting of contact sensors of a two-position object, the first sensor, parallel to which a resistor is connected, a common point connected to the common control cell, a second capacitor connected to the common bus power supply and threshold element e.g. dinistor C2. The known device has the drawbacks that ensures normal operation only with contact sensors of an on-off object with closing contacts, and sensors cannot be installed with opening contacts, since the thyristor will turn on at the time of power supply and, besides, the device has a reduced On the reliability, since the second capacitor is discharged to the first after the discharge of the last, Tve, the discharge rate of the capacitor determines the response. If the speed is low, the operation will not occur. The purpose of the invention is to simplify the choice of the element base by providing control of the actuator with contact sensors with both closing and opening contacts, as well as increasing reliability. This goal is achieved in that a device for switching on an actuating electromagnetic mechanism comprising a thyristor, leads for connecting an actuator, leads for connecting a power source, a thyristor control cell and a common resistor, each of the thyristor control cells containing two capacitors, a resistor, a diode, the threshold element and the contact position sensor of the on-off object, the thyristor and the terminals for connecting the actuator are connected in series and interconnected the leads for connecting the power source, in each cell of the thyristor control the first one. the capacitor and the resistor are connected in parallel, one of the terminals of the said parallel circuit is connected to the common bus of the thyristor control cells, one of the plates of the second capacitor is connected to one of the terminals for connecting the power supply, a two-position position sensor. an object and a diode are connected in series, one of the terminals of this series circuit is connected to another plate of the second capacitor and a control key is inserted into one of the terminals of the threshold element, a second resistor is inserted into each thyristor control cell, the resistor is connected between one terminal to connect the power source and the common bus of the thyristor control cells, the control switch is connected between the common bus of the thyristor control cells with the thyristor control electrode, in each cell the second resistor is switched on I am waiting for another pin to connect the power supply and the other plate of the second capacitor. the other terminal, the serial circuit containing the d-position of the two-position object and the diode, is connected to the common bus of the thyristor control cells, another terminal of the parallel circuit containing the first capacitor and the first 3114 resistor is connected to another terminal of the threshold element. The drawing shows a diagram of the device. The actuator 1, an elec- tromagnetic valve, is connected to the power supply circuit in series with the thyristor 2, the control electrode of which is connected via an open switch 3 to control cells, which contain serial circuits of resistors 4 and capacitors 5 connected between the power buses, the midpoints of which 6 contact objects are connected to the contact sensors and to the common control bus through diode 7. The contact sensors are either in the w-open or open state and bypass the sequence e circuits from a parallel KS circuit of resistors 8, capacitors 9, and a threshold element (dinistor 10. 10. All contact sensors are connected to switch 3, and through resistor P to the negative power bus. To the anode of the thyristor 2, an anode thyristor 12 is connected through switching capacitor 13 The thyristor 12 is shunted by a successive chain of resistor 14 and capacitor 15, the midpoint of which is connected to the control electrode of the thyristor 12 through the dynistor 16, the anode of which is connected to the power bus through the resistor 17. The control electrode of the thyristor 2 under oedinen to the key 3 via a resistor 18 Diode 7 may be incorporated in another part cxetoi, it is important that the decoupling capacitor from the common control bus. When applying the supply voltage polarity indicated in the drawing, the circuit is reset: through resistors 17 and 14, the capacitor 15 is charged to the threshold value of the dynistor 16, which, including, includes the thyristor 12 and the commutators, the capacitor 13 charges the field indicated in the drawing. The control cells also occupy the initial state, i.e. where the contact sensors 6 are open, the capacitors 5 are charged to the level of the probes of the distors 10 and they are in the wired state; currents; holding which is much less than the turn-on currents of the thyristor 2, then the capacitors 9 are charged to the voltage falling on the resistors 8, the capacitors 5 to the voltage equal to the sum of the voltages from the capacitor 9 plus the voltage drop on the dynistor, and where contact sensors 6 are closed, capacitors 5 are discharged to a voltage equal to the voltage across resistor 11, i.e. The supply voltage is divided between resistors 4 and 1I. The voltage across the resistor 11 is such that it is not capable of creating a thyristor turn-on current. After the circuit is in the initial state, the key 3 is closed, the thyristor 2 is not turned on, because the current in the control electrode is not equal to the turn-on current of the thyristor. When the position of any contact sensor, closed or open, is changed, the thyristor 2 is turned on, because a current pulse passes through the control electrode of this thyristor, which ensures its activation. If the open contact sensor 6 is closed, then the current pulse, control is provided with energy stored on the capacitor 5, and if the contact sensor is open, the capacitor 5 will discharge to the level of the probe of the dynistor 10 and discharged through the switched on dynistor 10, the capacitor 9 and control An electrode of the thyristor 2, which, including, connects the actuator 1 between the power buses, the switching capacitor 13 extinguishes, the thyristor 12 and recharges the capacitor 13 polarity of the reverse indicated in drawing 5 because torus 12 is turned off, the capacitor 15 starts to be charged. Having dawned to the level of the probe of the dynistor 16, the latter, breaking through, discharges the capacitor 15 and turns on the thyristor 12, the thyristor 2 is turned off. Actuator 1 is de-energized, i.e. the thyristors are in the initial state. The duration of the current pulse in the actuator 1 is equal to the charging time of the capacitor 15 to the level of the probe of the dynistor, 16. 1 Resistor1 18 limits the current controlling the thyristor, Therefore, the switch 3 and the resistor 11 ensure that the control cells are reset to the initial state, so with open koi. tact sensors and after the sync

Claims (1)

DEVICE FOR STARTING AN EXECUTIVE ELECTROMAGNETIC MECHANISM, comprising a thyristor, terminals for connecting an actuator, terminals for connecting a power source, thyristor control cells and a common resistor, each of the thyristor control cells containing two capacitors, a resistor, a diode, a threshold element and a contact position sensor of a two-position the object, the thyristor and the terminals for connecting the actuator are connected in series and are connected between the terminals for connecting the power source In each thyristor control cell, the first capacitor and resistor are connected in parallel, one of the terminals of the indicated parallel circuit is connected to the common bus of the thyristor control cells, one of the plates of the second capacitor is connected to one of the terminals for connecting the power source, the position sensor of the on-off object and the diode are connected in series, one of the terminals of the indicated series circuit is connected to another plate of the second capacitor and to one of the terminals of the threshold element, characterized in that, for the purpose To simplify the selection of the element base by providing · control of the actuator. contact sensors with both closing and opening contacts, as well as improving reliability, a control key is introduced into the device, a second resistor is inserted into each thyristor control cell, a common resistor is connected between one output for connecting the power supply and the common bus of the thyristor control cells, a control key is connected between the common bus of the thyristor control cells and the thyristor control electrode, in each cell the second resistor is connected between the other terminal for connecting the power source and the other plate of the second capacitor, the other terminal of the serial circuit containing the position sensor of the on-off object and the diode is connected to the common busbar of the thyristor control cells, the other terminal of the parallel circuit containing the first capacitor and the first resistor is connected with a different output of the threshold element.