RU55693U1 - DC TRACTION ELECTRIC DRIVE - Google Patents

Abstract

The utility model relates to the field of railway transport and can be applied on vehicles with traction electric motors of direct current.

The objective of the utility model is to increase the reliability of the DC traction electric drive by simplifying the design.

The technical result is achieved by the fact that in a traction DC electric drive containing a serially connected power supply, a switch, anchor windings of the first and second traction DC motors, field windings of the first and second traction DC motors, the first and second current sensors connected in series to the first and the second resistors, to the common terminal of which the first terminal of the first contactor is connected, its second terminal is connected to the free terminal of the second resistor, its one output of the first resistor is connected to the third resistor, the second contactor, a common bus, it additionally includes a voltage sensor, an insulated gate bipolar transistor, a control unit, is connected to the common output of the armature winding of the second DC traction motor and the excitation winding of the first DC traction motor the second contactor, its free output is connected to the common output of the first and third resistors, the common output of the second resistor and the first contactor is connected to the collector an insulated gate bipolar transistor, its emitter is connected to the free output of the second current sensor, the free output of the third resistor through the voltage sensor is connected to the common output of the first and second current sensors, which is connected to the common bus, the first, second, third inputs of the control unit are connected to the outputs the first, second current sensors and voltage sensors, respectively, the output of the control unit is connected to the gate of an insulated gate bipolar transistor.

Description

The utility model relates to the field of railway transport and can be applied on vehicles with traction electric motors of direct current.

Known traction electric drive DC, which contains a power source, a switch, two traction DC motors, four thyristors, two diodes, three resistors, two contactors, a switching capacitor, a switching reactor (AS USSR No. 1632825, B 60 L 15 / 08, 1989).

The disadvantage of the device: low reliability due to the large number of additional elements for switching the main thyristor.

Known traction electric drive DC, which contains a power source, a switch, two traction DC motors, two thyristors, four resistors, a switching capacitor, two contactors (RU 2208530, B 60 L 15/08, 2001 - prototype).

The disadvantage of the device: low reliability due to the large number of additional elements for switching the main thyristor.

The objective of the utility model is to increase the reliability of the DC traction electric drive by simplifying the design.

The technical result is achieved by the fact that in a traction DC electric drive containing a serially connected power supply, a switch, anchor windings of the first and second traction DC motors, field windings of the first and second traction DC motors, the first and second current sensors connected in series to the first and the second resistors, to the common terminal of which the first terminal of the first contactor is connected, its second terminal is connected to the free terminal of the second resistor, its odny terminal of the first resistor connected to the third resistor, a second contactor, a common bus, it is further introduced a voltage sensor, a bipolar transistor

an insulated shutter, the control unit, to the common terminal of the anchor winding of the second DC traction motor and the field winding of the first DC traction motor, a second contactor is connected, its free output is connected to the common terminal of the first and third resistors, the common terminal of the second resistor and the first contactor is connected to the collector an insulated gate bipolar transistor, its emitter is connected to the free output of the second current sensor, the free output of the third resistor through the sensors voltage connected to the common terminal of the first and second current sensors, which is connected to the common bus, the first, second, third inputs of the control unit are connected to the outputs of the first, second sensor current and voltage sensor respectively, the control unit output is connected to gate bipolar transistor with insulated gate.

The drawing shows a circuit diagram of the proposed device.

According to the drawing, a direct current traction electric drive comprising a power supply 1, a switch 2, anchor windings of the first 3 and second 4 direct current traction motors, field windings of the first 5 and second 6 direct current traction motors, the first 7 and second 8 current sensors connected in series to the first 9 and second 10 resistors, to the common terminal of which the first terminal of the first contactor 11 is connected, its second terminal is connected to the free terminal of the second resistor 10, free the first output of the first resistor 9 is connected to the third resistor 12, the second contactor 13 is connected to the common output of the anchor winding 4 of the second DC traction motor and the field winding 5 of the first DC traction motor, its free output is connected to the common terminal of the first 9 and third 12 resistors, the common terminal of the second resistor 10 and the first contactor 11 is connected to the collector of the insulated gate bipolar transistor 14, its emitter is connected to the free terminal

the second current sensor 8, the free output of the third resistor 12 through the voltage sensor 15 is connected to a common terminal of the first 7 and second 8 current sensors, which is connected to a common bus, the first, second, third inputs of the control unit 16 are connected to the outputs of the first 7, second 8 sensors current and voltage sensor 15, respectively, the output of the control unit 16 (for example, ADAM-5510, Prosoft short product catalog 6.0, 2001, p.47) is connected to the gate of an insulated gate bipolar transistor 14.

The device operates as follows. With the closed contact of the switch 2, the traction motors operate in full excitation mode. When the second contactor 13 is turned on, a voltage sensor 15 is supplied with voltage from the field windings of the first 5 and second 6 traction motors. The presence of voltage on the voltage sensor 15 indicates the inclusion of the second contactor 13. When the voltage surge in the contact network, the voltage on the field windings of the first 5 and second 6 traction motors increases. The current in the chain of anchor windings of the first 3 and second 4 traction motors also increases. Since the mode of weakening the excitation is not yet turned on, the current in the field windings of the first 5 and second 6 traction motors is equal to the current of the anchor windings of the first 3 and second 4 traction motors and the control of the limiting voltage values on the field windings of the first 5 and second 6 traction motors and the current value, are sufficient conditions for controlling the voltage surge in the contact network. If there is no voltage surge in the contact network, the current collector is checked for detachment by signals from the first 7 and second 8 current sensors, this event corresponds to a current drop in the chain of anchor windings of the first 3 and second 4 traction motors less than the set value. If all the conditions are positive, the signal from the control controller 16 turns on the power bipolar transistor with an insulated gate 14 and the first 9 and second 10 resistors are connected in parallel with the field windings of the first 5 and second 6 traction motors.

Traction motors go into the mode of attenuation of excitation. When you turn on the first contactor 11, the second resistor 10 is output and the second stage of attenuation is realized. In the mode of weakening the excitation during an overvoltage, separation of the current collector, that is, if one of the test conditions is not fulfilled, the bipolar transistor with an insulated gate 14 is turned off and reconnected after eliminating the cause of the disconnection, but not earlier than after 0.2 s. When you turn off the second contactor 13, the voltage at the voltage sensor 15 becomes equal to 0 and the bipolar transistor with an insulated gate 14 is turned off. Traction motors go into full excitation mode.

The proposed direct current traction electric drive contains eight elements less than the prototype, realizes the task - to increase the reliability of operation, allows to optimize the start-up mode and maximum power, ensuring the maximum efficiency of the traction electric drive, which saves energy.

Claims (1)

A direct current traction electric drive comprising a power source, a circuit breaker, anchor windings of the first and second direct current traction motors, excitation windings of the first and second direct current traction motors, first and second current sensors, the first and second resistors connected in series, to the common output of which the first terminal of the first contactor is connected, its second terminal is connected to the free terminal of the second resistor, the free terminal of the first resistor is connected to a second resistor, a second contactor, a common bus, characterized in that a voltage sensor, an insulated gate bipolar transistor, a control unit are additionally inserted into the second contactor , its free output is connected to the common output of the first and third resistors, the common output of the second resistor and the first contactor is connected to the bipolar transistor collector with an isolated gate, its emitter is connected to the free output of the second current sensor, the free output of the third resistor through the voltage sensor is connected to the common output of the first and second current sensors, which is connected to a common bus, the first, second, third inputs of the control unit are connected to the outputs of the first , a second current sensor and a voltage sensor, respectively, the output of the control unit is connected to the gate of an insulated gate bipolar transistor.