SU450253A1 - Trigger - Google Patents

Description

one

The invention relates to the field of automation and remote control and can be used in schemes with limited consumption of electrical energy.

Known triggers that contain a self-holding electromagnetic relay with two windings, two electromagnetic relays and diodes.

A disadvantage of the known triggers is the consumption of electrical energy when there is no input to the control signal. With a low frequency of control signals, irrational consumption of electrical energy can be significant.

In order to reduce the consumption of electrical energy and expand the functionality of the proposed trigger, the beginning of the first winding of the electromagnetic relay with self-holding is connected via a diode in a non-conductive direction to the beginning of the winding of the first electromagnetic relay and through the normally open contact of the first electromagnetic relay to the power bus, a normally closed contact which is connected to the beginning of the winding of the second electromagnetic relay and the second winding of the electromagnetic relay with self-holding, the end of which the swarm is connected via a diode in a non-conductive direction with the end of the winding of the second electromagnetic relay and through a normally open

the contact of the second electromagnetic relay is with a common bus; the normally closed contact of the second electromagnetic relay is connected to the end of the first winding of the electromagnetic relay with self-holding and the end of the winding of the first electromagnetic relay, the beginning of which is connected through the first normally closed contact of the electromagnetic relay with self-holding normally open contact of the same relay is connected to the first output bus, the end of the winding of the second electromagnetic relay is connected through the second normal but the open contact is a self-holding electromagnetic relay with a common bus, the second normally closed contact of which is connected to the second output bus.

Pa figs. 1 given the scheme of the proposed trigger; in fig. 2 and 3 are state diagrams of trigger relays.

The trigger contains an electromagnetic relay 1 with self-holding with two windings W and Wi and switching contacts 2 and 3, two electromagnetic relays 4 and 5 with switching contacts 6 and 7, respectively, diodes 8 and 9, power bus 10, first and second output buses 11 and 12 and a common bus 13.

Diodes 8 and 9 are designed to circuit ahead of the operation of relays 4 and 5 with respect to relay I with self-holding, which

switches only after switching over relays 4 and 5 to self blocking. Diodes provide stability of the trigger regardless of the variation of the response time of the relay 4 and 5 and the relay 1 with self-holding.

In the initial state, the switch-on circuit of relay 4 was prepared through normally closed contacts 2 and 7; the circuit of the relays 1 and 5 is broken.

When the voltage is first applied to the trigger circuit by closing control contact 14, relay 4 is activated and goes to self-blocking via closed contact 6. At the same time, voltage is applied to winding W of relay 1, contacts 2 and 3 of which open the winding circuit of relay 4 and close the winding circuit of the relay 5, respectively, and also change the state of the corresponding, their output trigger chains; bus AND closes, bus 12 opens. In this state, the circuit is located before relieving the voltage from the circuit.

When the control contact 14 is opened, the relay 4 releases, and the winding circuit 5 is prepared to be turned on via the normally closed contact 6 and the closed normally open contact 2.

This state of the trigger is maintained until the voltage is re-applied. When it is implemented, the relay 5 triggers to self-blocking via a closed contact 7, through which the voltage is applied to the winding Wi of relay 1, resulting in the last and, therefore, the output Steps 11 and 12 are reset.

Further, the trigger does not change its state before relieving stress.

When contact 14 is opened, the relay 5 is released, and the circuit returns to its initial state.

Information can be collected from output lines 11 and 13, 10 and 12, 10 and 11, 12 and 13 as well as output lines 11 or 12 with respect to the respective poles of the power source, depending on the desired type of output signal and which side power supply poles are on control contact 14.

If control contact 14 is connected to the trigger from the positive pole

power supply, the diagram (Fig. 2) varies with the output of the output signals from outputs And and 12 (Fig. 3).

The output signals of the trigger are varied: positive, negative, lasting for the time the trigger is in each of the steady states or about the time of transition from one steady state to another. The duration of the transition is determined by the duration of the control signal.

Subject invention

A trigger comprising a self-holding electromagnetic relay with two windings, two electromagnetic relays and diodes, characterized in that, in order to reduce the consumption of electrical energy and enhance functionality, there the beginning of the first winding of the electromagnetic relay with self-holding is connected via a non-conductive path with the start of the winding of the first electromagnetic relay and through the normally open contact of the first electromagnetic relay to the power bus, the normally closed contact of which is connected to The winding of the second electromagnetic relay and the second winding of the electromagnetic relay with self-holding, the end of which is connected via a diode in a non-conductive direction to the end of the winding of the second electromagnetic relay and through a normally open contact of the second electromagnetic relay - with a common thickness, the normally closed contact of the second electromagnetic relay is connected to the end the first winding of the electromagnetic relay with self-holding and the end of the winding of the first electromagnetic relay, the beginning of which is connected through the first normally closed The self-holding electromagnetic relay's contact with the power bus, which through the first normally open contact of the same relay is connected to the first output, the winding of the second electromagnetic relay is connected through the second normally-open contact of the electromagnetic relay with self-holding to the common bus, the second normally closed contact of which is connected with a second output bus.

450253