SU1163455A1 - A.c.drive - Google Patents

Abstract

An AC power drive containing an asynchronous machine, two three-phase thyristor rectifiers connected on the DC side in anti-parallel through an equalization reactor with a midpoint, a transformer, the primary winding of which is connected to the stator winding of a synchronous machine designed to be connected to the network via a switch, The secondary winding of the transformer is supplied with tapes. The secondary winding leads of the transformer are connected to the AC inputs of the rectifier, an additional three-phase thyristor rectifier, the first and second switching devices, regulators and rectifier control units, characterized in that, in order to extend the functionality by providing a reversal and simplification of the device, the additional rectifier is connected by AC inputs to the inputs alternating current of the second rectifier, and on the DC side, via and through the contacts of the first switching device, to the excitation winding of the synchronous machine, which through the contacts (second switching) one output to the midpoint of the surge reactor, and the other to the connection point of the first and second rectifiers, while the second rectifier is connected to the alternating current inputs through a co-tact of the second switching device to the tapes of the secondary 4 windings of the transformer, and to the contacts of the first switching device, the other contacts of which are intended to be connected to the network of their own NEEDS.

Description

The invention relates to electrical engineering, in particular, to excitation systems and frequency start-up of AC electric machines, and can be used for synchronous compensators, generator-engines of pumped-up power plants, gas-turbine generator sets and synchronous engines. An AC electrical drive that contains a synchronous machine, high-voltage a frequency converter with an explicit DC link, consisting of a slider, a smoothing reactor, and an inverter (1 J. This device requires additional high-voltage converters and switching equipment, which leads to complication of the power circuit and control of the synchronous machine and increase its cost. The closest to the invention to the technical essence is the AC drive containing a synchronous machine, two three-phase thyristor rectifiers connected on the DC side in opposite direction in parallel through a balancing reactor with a midpoint, a transformer, primary winding and which is connected to the stator winding of a synchronous machine, connected to the network via a switch, the secondary winding of the transformer is connected to the AC inputs of the first rectifier, an additional three-phase rectifier connected to the winding of the exciter, switching devices to connect two thyristor rectifiers controllers, controllers, and control units, rectifiers 2. A disadvantage of the known device is that the kit used is: equipment does not allow to provide ersirovanie excitation current, which is necessary to provide an additional set of equipment, which complicates implementation. The purpose of the invention is to enhance the functionality by reversing and simplifying the device. 552 The goal is achieved by the fact that in the electric drive of variables; A synchronous machine, two three-phase thyristor mittel wires connected on the DC side in parallel through an equalizing reactor with a midpoint, a transformer whose primary winding is connected to the stator winding of a synchronous machine intended for connecting to the network through a switch, the secondary the transformer winding is fitted with taps, the transformer secondary winding leads are connected to the AC inputs of the first rectifier, an additional three-phase thyristor rectifier itel, first and second switching devices, regulators and control units, an additional rectifier is connected by alternating current inputs to the alternating current inputs of the second high voltage, and on the DC side, according to and through the contacts of the first switching device, to the excitation winding synchronous machine, which through the contacts of the second switching device connected to one output to the middle. the point of the surge reactor, and another output, to the connection point of the first and second outputrs, while the second diverter is connected to the alternating current inputs through the contacts of the second switching device to the tapes of the secondary transformer T1 and to the contacts of the first switching device, the other contacts of which are intended Connect to your own network needs. The drawing is schematically depicted. The proposed AC drive. The actuator contains two three-phase thyristor rectifiers 1 and 2 connected on the DC side through a leveling reactor 3 with a midpoint, a transformer 4, the primary winding of which is connected to the stator winding 5 of a synchronous machine, which is connected to the network through a switch 6, the secondary winding transformer 4 is fitted with tap-offs, the secondary winding leads are connected to the AC inputs of the first rectifier 1, an additional three-phase thyristor rectifier 7, the first 8 and the second 9 arats, regulators and control unit 10 mi vtr DC converter. The additional rectifier 7 is connected to the AC inputs to the AC inputs of the second rectifier 2, and on the DC side with it through the contacts of the first switching device 8 to the winding of the exciter 11 of the synchronous machine, which is connected through the contacts of the second switching device 9 one output to the middle bus of the surge reactor, and the other output to the connection point of the first and second rectifiers 1 and 2, while the second rectifier 2 is connected by alternating current inputs through the contacts of the second terminal mutation unit 9 to the taps of the secondary winding 4 of the transformer and the contacts of the first switching device B, the other contacts which are intended for connection to the network 12, its own needs. The device also contains current transformers 13 and 14, position sensors 15, a rotor 16 of a synchronous machine, and a main power supply network 17, an additional control unit 18. The device works as follows. In the initial state and at start-up, the switch 6 and the switching device 9 are released and the switching device 8 is turned on. The contacts of the device 9 are opened, the contacts of the device 8 are closed. The first rectifier 1 operates in the inverter mode, the second rectifier 2 in the rectifier mode. At the same time, the rectifiers 1 and 2 together with the equalization reactor 3 form a frequency converter connected via transformer 4 to the stator winding of the synchronous machine, and the reactor 3 performs the function of smoothing the rectified current at the input of the inverter. The excitation winding 11 is supplied with power from the power supply network 12 through an additional rectifier 7. The current in the excitation winding 11 is maintained unchanged or adjusted in order to accelerate the start-up process according to the required law by means of the controller and the control unit 18. 5 Acceleration of a synchronous machine is achieved by increasing the voltage and frequency at the output of the frequency converter so that the current in the stator winding is maintained at the maximum possible level. This is achieved by stabilizing the output current of the rectifier 2 and increasing the switching frequency of the rectifier 1 by means of the controller and the control unit 10. In this case, the inverter thyristors, rectifier 1, are switched by the electromotive force (EMF) of the synchronous machine. The switching of the inverter thyristors at low rotational frequencies is performed by periodically locking and unlocking the rectifier 2 using the controller and the control unit 10. When the frequency of rotation of the synchro mash becomes quite close to synchronous, the rectifier 1 and 2 are locked and the switch 6 is turned on. The machine is synchronized with the network by any known method. After synchronization lock expander 7, turn off apparatus 8. and turn on apparatus 9, depending on the operation mode of the synchronous machine, turn on either the first rectifier 1, creating a positive excitation, or the second expander 2, allowing the excitation field to change direction. Thus, by connecting an additional rectifier to the inputs of an alternating current of this very cost, a simplified arrangement is achieved, since an additional tdansformator is excluded from the circuit of the known device. Expansion of the functionality of the device is achieved by reversing the excitation current of the synchronous machine. This is provided by connecting the excitation winding through the contacts of the second switching device with one output to the midpoint of the surge reactor, and the other output to the connection point of the first and second rectifiers, while the second signal is connected to the secondary winding taps transformer, and through the contacts of the first commision device - to the network of its own needs.

Claims (1)

An AC electric drive containing an asynchronous machine, two three-phase thyristor rectifiers connected on the side. DC counter-parallel through a balancing reactor with a midpoint, a transformer, the primary winding of which is connected to the stator winding of a synchronous machine designed to connect to the network through a switch, the secondary winding of the transformer is equipped with solders, the terminals of the secondary winding of the transformer are connected to the AC inputs of the rectifier, additional three-phase thyristor rectifier, first and second switching devices, regulators and rectifier control units, characterized in that In order to expand the functional capabilities by providing reversing and simplifying the device additionally pre- _e rectifier inputs connected to the inputs of the AC alternating current · second rectifier and the DC side and through contacts according to the first switching device - to the field winding synchronous Ma- 5 bus, which is connected through the contacts of the second switching device with one output to the midpoint of the equalization reactor, and to the other conclusions to the connection point of the first and second rectifier a tap changer, while the second rectifier is connected by AC inputs through the contacts of the second switching device to the taps of the secondary winding of the transformer, and to the contacts of the first switching device, the other contacts of which are designed to be connected to the auxiliary network. 1 g