RU1817219C - Electrical machine - Google Patents

Abstract

Usage: in mechanical engineering. SUBSTANCE: switch 8 is inserted into an electric machine by two groups of NC contacts 8 and 9,10 and NC contact 11. The machine is started with closed contacts 9, 10 and open contact 11. A frequency start is performed, after reaching rated speed contacts 8, 9, 10 open, contact 11 closes. Field coil 14 will be powered by a rectifier, the inverter is off, starting reliability is improved. 1 ill. u Ј oe go yu

Description

The invention relates to electrical engineering, in particular to powerful synchronous motors with static excitation systems.

An object of the invention is to increase reliability.

An electric machine with a static excitation system is shown schematically in the drawing.

The electric machine contains a stator winding 1, equipped with terminals 2 for connection to the network through a switch

3. a static excitation system composed of a controlled rectifier

4. equipped with AC terminals 5 for connecting to the network, and the inverter 6 and the switch 7. The switch 7 has two groups of NC contacts 8 and 9, 10 and a NO contact 11. Each NC contact of the first group 8 of the switch 7 is connected between the corresponding AC terminal current 12 of the inverter 6 and the phase output 13 of the stator winding 1 of the generator. The field winding 14 of the electric machine is connected to the contact rings 15, 16. The first DC output 17 of the controlled rectifier 4 is connected to the brush 18 of the ring 15 of the first output of the field winding 14, and the brush 19 of the ring 16 of the second output of the field winding through the opening contact the second group 9 of the switch 7 is connected to the first DC output 20 of the inverter 6 and through the make contact 11 to the second DC output 21 to control the rectifier A. The second DC output of the 21 controlled rectifier 4 is connected n through the opening contact of the second group 10 of the switch 7 with the second DC terminal 22 of the inverter 6.

The electric machine is started with closed contacts 8, 9, 10 and open contact 1.1 of switch 7. When power is supplied to the controlled rectifier 4, direct current flows through the excitation winding 14, and alternating current flows through the stator winding 1. With increasing frequency at the output 12 of the inverter 6, the current frequency in the stator winding 1 increases and the rotation speed of the electric machine increases (the inverter control system is not shown). After the rotation speed of the machine reaches the nominal value or slightly exceeds it, the contact 11 closes and the contacts 8, 9, 10 open. As a result, the field winding 14 is switched to rectifier 4.

constantly feeding her about the operating modes of the machine.

When turning on the electric machine, for example, by the exact synchronization method, the exact synchronization device (not shown in the drawing), upon reaching the equality of the amplitude, frequency and voltage phase of the electric machine and the network, turns on the switch 3, which switches the stator winding. 1 to the network.

Synchronization of a machine with a network can be accomplished by other known methods.

Thus, after synchronization, the field coil 14 is powered only from the rectifier 4. The inverter 6 is turned off. Due to this, the reliability of the machine increases, since its excitation system in the operating modes of the machine is powered by only one converter and is an independent excitation system, which improves the performance of the machine at close short circuit. online. In addition, an inverter of 6 meters can be used as a backup power supply to the field winding 14 in the event of damage to rectifier 4 during operation of the machine. For this, the inverter b must be connected to an alternating current source, for example, supplying rectifier 4 (switching circuit is not shown), switch to rectification mode, close contacts 9, 10 and open contact 11, and then disconnect rectifier 4 from the alternating current source current, brushes 18 and terminal 22 of inverter 6. After disconnecting, rectifier 4 can be repaired and put back into operation.

In this way, 100% redundancy of the power supply to the field winding of the machine can be ensured, and thereby increase the reliability of its operation.

Claims (1)

The claims An electric machine comprising a stator winding equipped with terminals for connecting to a network, a static excitation system composed of a controlled rectifier, equipped with AC terminals for connecting to a network, and an inverter, an excitation winding connected between the first DC terminals of the controlled rectifier a switch and an inverter, the second DC terminals of which are interconnected, characterized in that, in order to increase reliability, a switch with two groups of NC contacts and a short circuit ayuschim contact, each first group of break contact switch connected between the respective terminal 6 pe51817219 or inverter current and phase inverter-first output of the inverter and the second house of the stator winding of the generator, razmo-, the output of the excitation winding, the connecting contacts of the second grouped through the make contact of the switch are switched respectively switch with the second output between the second terminals of the direct current 5 constant current of the controlled rectifier controlled rectifier and inverter, mitel.