SU1275759A1 - Relay flip-flop - Google Patents

Abstract

The invention relates to a pulse technique. It can be used in various electroautomatics and remote control devices, remote control devices, where it is necessary to store information in the absence of an input signal. The purpose of the invention is to increase the reliability of the trigger. It contains a relay 1,2,3. In order to increase the reliability of operation, relay 4 has been introduced into it. 2 Il. (L

Description

The invention relates to a pulse technique and can find application in automation and telemechanics devices in which it is necessary to store information in the absence of an input 5 signal.

The purpose of the invention is to increase the reliability of the device.

In FIG. 1 is a circuit diagram of a relay 1® trigger; in FIG. 2 - time diagrams of its operation, indicating voltages on the corresponding elements of the circuit.

The relay trigger contains four 15 relays 1 - 4 with the corresponding contacts 1.1 and 1.2; 2.1 and 2.2; 3.1 and 3.2; 4.1, two buses 5.1 and 5.2, for connecting a power supply input 6 and outputs 7.1 and 7.2. ²⁰

The trigger works as follows.

Before starting work, the supply voltage is supplied to the 5.1 and 5.2 buses of the power supply source. When the first input pulse arrives at input 6, the winding circuit of relay 1 closes. The latter trips and switches its contacts 1.1 and 1.2. This leads to the formation of chains ₃₀ flowing through the winding FEC: the first power supply bus 5.1, 3.1 relay break contact 3, make contact relay 1 1.1, 1, relay coil 2, the second bus 5.2 'power source. Relay 2 is activated and self-locked along the circuit: the first bus 5.1 of the power source, NC 3.1 relay 3, NO 2.1, relay 2, relay 2 coil, the second bus * 5.2 power supply ® ® and with its NO 2.2 terminal prepares relay 3 relay switching circuit. Switching the second contact 1.2 of relay 1 upon receipt of the first input pulse changes in ⁴³ device does not cause.

Upon termination of the supply of the first input pulse, the coil of relay 1 is de-energized and contacts 1.1 and 1.2 return to their original position, ⁵⁰ which leads to the formation of a second self-locking circuit of relay 2 (first bus 5.1 of the power supply, NC contact 1.1 of relay 1, NO contact 2.1 of relay 2, winding relays 2, 55 second bus 5.2 of the power supply) and the actuation circuit of relay 3 (second bus 5.2 of the power supply, NC 1.1 relay 1, NC 2.1 and 2.2 relay 2, NC 1.2 relay 1, NC 4.1 relay 4, winding relay 3, first bus 5.1 power source). Relay 3 is triggered and self-locked via the circuit: power supply bus 5.1, make contact 3.1 of relay 3, make contact 4.1 of relay 4, relay 3 winding, second bus 5.2 of power supply and reset its contact

3.2 to the second position. Relay 2 continues to be held in the operating state along the second self-locking circuit. In this case, the signal appears at the output 7.1, and is removed from the output 7.2.

When a second input pulse arrives at input 6, relay 1 re-activates and switches its contacts 1.1 and 1.2. NC contact

1.1 relay 1 opens the self-locking circuit of relay 2. In this case, relay 2 releases, contacts 2.1 and 2.2 return to their original position, the relay coil winding circuit is prepared, relay 3 is in the activated state due to the self-locking circuit.

Upon termination of the second input pulse, the relay 1 winding is de-energized, its contacts 1.1 and

1.2 come to a starting position. In this case, the supply voltage is applied to the winding of relay 4 along the circuit: the first bus 5.1 of the power supply, make contact 3.1 of the relay 3, the make contact 1.2 of the relay 1, the make contact 2.2 of the relay 2, the coil of the relay 4, the second bus 5.2 of the power supply. Relay 4 is activated, opens its contact 4.1, which breaks the self-locking circuit of relay 3, the latter releases and the circuit returns to its original state, while the signal is removed from the output £ .1, and appears at the output 7.2.

Claims (2)

The invention relates to a pulse technique and can be used in automation and telemechanic devices, in which information must be stored in the absence of an input signal. The purpose of the invention is to increase the reliability of the device. FIG. Figure 1 shows the circuit diagram of the relay trigger; in fig. 2 - time diagrams of his work with an indication of the voltages on the corresponding circuit elements. The relay trigger contains four relays 1–4 with corresponding contacts 1.1 and 1.2; 2.1 and 2.2; 3.1 and 3.2 4.1, two buses 5.1 and 5.2, for connecting the power supply input 6 and outputs 7.1 and 7.2. The trigger works in the following way. Before starting, the supply voltage is supplied to the buses 5.1 and 5.2 of the power supply. When the first input pulse arrives at input 6, the winding circuit of relay 1 closes. The latter triggers and switches its pins 1.1 and 1.2. This leads to the formation of a current flowing through the winding: the first bus 5.1 power supply, the disconnecting contact 3.1 of relay 3, the closing contact 1.1 of relay 1, the winding of relay 2, the second bus 5.2 of the power supply. Relay 2 srabap 1bay and self-blocking along the circuit: first power supply to 5.1 power source, disconnecting contact 3.1, relay 3, closing contact 2.1 of relay 2, winding relay 2, second bus 5.2 of the power supply and its closing contact 2.2 under the relay 3 connection winding circuit. Switching the second contact 1.2 of relay 1 when receiving the input input pulse does not cause changes in the device. When the first input pulse stops supplying, the winding of the relay 1 is de-energized and contacts 1.1 and 1.2 return to their original position, which leads to the formation of a second self-blocking circuit of the relay 2 (first bus 5.1 of the power supply, pa3NaiKa contact 1.1 of the relay 1, closures contact 2.1 of the relay 2, relay coil 2, the second power supply bus 5.2) and the relay tripping circuit 3 (the second power supply bus 5.2 bus, opening contact 1.1 1.1 of relay 1, closing contacts 2.1 and 2.2 of relay 2, opening contact 1.2 of relay 1, disconnecting contact 4.1 of relay 4, winding of relay 3 first tire 5.1 and food source). Relay 3 is triggered and self-locking along the circuit: power supply 5.1 bus, end contact 3.1 relay 3, disconnect contact 4.1 relay 4, relay 3 winding, second power supply bus 5.2 and throws its contact 3.2 to the second position. Relay 2 continues to hold in the actuated state along the second self-blocking circuit. At the same time, at output 7.1, the signal appears, and from output 7.2 it is removed. When a second input pulse arrives at input 6, relay 1 re-triggers and switches its pins 1.1 and 1.2. Opening contact 1.1Relay 1 opens the relay self-blocking circuit 2. In this case, the relay 2 releases, contacts 2.1 and 2.2 come to the initial position, the turn-on circuit of the relay 4 winding is prepared, the relay 3 is in the actuated state due to the self-locking circuit. Upon termination of the second input pulse, the winding of the relay 1 is de-energized, its contacts 1.1 and 1.2 return to their original position. In this case, the supply voltage is applied to the winding of the relay 4 via the following circuit: the first bus 5.1 of the power supply, the closing contact 3.1 of the relay 3, the disconnecting contact 1.2 of relay 1, the disconnecting contact 2.2 of the relay 2, the winding of the relay 4, the second bus 5.2 of the power supply. Relay 4 is triggered, it opens its contact 4.1, which breaks the self-blocking circuit of relay 3, the latter releases and the circuit returns to its initial state, the output is removed from output. 1, and at output 7.2 it appears. Claims of the invention Relay trigger, containing two power buses and three relays, the winding of the first relay is connected to the trigger input, the first terminal of the winding of the second relay is connected to the first relay with 1 contact of the first and second relay, the switching contacts of which are interconnected and the third contact opening the relay, the switching contact of which is connected to the first open