RU2037949C1 - Automatic reversing direct-current drive - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: drive has electric motor 1 connected to power supply through two break contacts 3,4 and two make contacts 4, 5 of relay 7 with coils 8,9 saving information about power supply interruption. Coils of relay 7 are shorted out by capacitors 12,13. Drive also has limit switches 10, 11 and resistor 15. Relay is provided with additional change-over contact group 14. In case of interruption of power supply electric motor maintains its sense of rotation. EFFECT: enlarged functional capabilities due to retaining sense of rotation in case of interruption of power supply. 1 dwg

Description

 The invention relates to electrical engineering and may find application in mechanisms with automatic load reversal.

Known reversible automatic direct current electric drive containing an electric motor connected to a power source through two NC and two NO relay contacts connected in a cross-circuit, and limit switches [1]
Low reliability is a disadvantage of this device.

The closest in technical essence to the invention is a reversible automatic DC drive containing an electric motor, relays, resistors, thyristor and limit switches [2]
The disadvantage of this device is the limited functionality, since the device does not exclude the spontaneous change of direction of rotation during power outages.

 The aim of the invention is the expansion of functionality by ensuring the preservation of the direction of movement during power outages.

 This is achieved by the fact that a reversible automatic DC drive containing an electric motor connected to a power source through two NC and two NO contacts of the relay connected in a cross circuit, the first and second limit switches, made in the form of NO contact groups, additionally contains the first and second capacitors and a switching relay contact group, which uses a double-wound polarized relay with memory, relay windings are shunted by capacitors, per The output terminals of the relay windings are connected to the first bus of the power source, the second terminals of the relay windings are connected through the first and second limit switches to the fixed contacts of the switching contact group of the relay, the switching contact of which is connected to the second bus of the power source.

 The drawing shows a circuit diagram of the proposed reversible automatic DC electric drive.

 The electric drive contains an electric motor 1 connected to a power source 2 through two opening 3 and 4 and two closing 5 and 6 relay contacts connected in a cross-section. The first terminals of the windings 8 and 9 of the relay 7 are connected to the first bus of the power source, the second terminals of the relay windings to the first terminals of the limit switches 10 and 11, respectively, the windings 8 and 9 of the relay are shunted by the capacitors 12 and 13. The second terminals of the limit switches 10 and 11 are connected to the fixed the contacts of the switching contact group 14 of the relay 7, the switching contact of which through the resistor 15, which is current-limiting, is connected to the second bus of the power source 2. Limit switches 10 and 11 are made in the form of closing contact groups.

 The electric drive operates as follows.

 When you turn on the power source 2, the motor 1 starts to rotate and turns the output shaft of the drive mechanism towards the limit switch 11. The windings 8 and 9 of the relay 7 are de-energized. When the contacts of the limit switch 11 are closed, relay 7 is activated, as a result of which its contacts 3 and 4 open, and contacts 5 and 6 close, contact group 14 switches and the relay windings are again de-energized. The output shaft of the motor 1 rotates in the opposite direction. When the contact 10 of the other limit switch closes, the contacts of the relay 7 are switched back and the circuit returns to the state shown in the drawing.

 Due to the fact that regardless of the presence or absence of power, the relay 7 maintains its state during power interruptions, a spontaneous change in the direction of movement of the output shaft does not occur.

Claims (1)

 REVERSE AUTOMATIC DC CONTROL ELECTRIC DRIVE, containing an electric motor connected to a power source through two NC and two NO relay contacts connected in a cross-circuit, the first and second limit switches made in the form of NO contact groups, characterized in that it additionally contains the first and second capacitors and a switching contact group of the relay, which is used as a double-wound polarized relay with memory, relay windings are shunted by capacitors, first The output terminals of the relay windings are connected to the first bus of the power source, the second terminals of the relay windings are connected through the first and second limit switches to the fixed contacts of the switching contact group of the relay, the switching contact of which is connected to the second bus of the power source.