RU115982U1 - FREQUENCY ACCELERATED ELECTRIC DRIVE - Google Patents

Abstract

A frequency-accelerated electric drive containing an asynchronous electric motor connected to the network through a network switch and to a frequency converter - through a starting switch, the control inputs of the switches are connected to the controller, the converter is connected to the network through an input switch and is equipped with an input for blocking pulses, characterized in that this an opening block contact of the network switch is connected to the input.

Description

The proposal relates to the field of electrical engineering and is used in electric drives. The closest in technical essence and achieved results is / 1 / a frequency-accelerated electric drive containing an asynchronous electric motor connected to the network through a network switch and with a frequency converter through a start switch, the control inputs of the switches are connected to the controller , the converter is connected to the network via an input switch and is equipped with an input for blocking pulses. The disadvantage of this method is the relatively low reliability, because when switching from a converter to a network in the device, current peaks and voltage fluctuations occur, which reduces reliability.

The aim of the proposal is to increase reliability.

This goal is achieved due to the fact that the disconnecting block contact of the network switch is connected to the input of the pulse blocking of the converter. The drawing shows a single-line circuit drive. The input of the rectifier 2 is connected to the input of the rectifier 2, the poles of which are connected to the capacitor 3 and the voltage inverter 4, the output of which through the start switch 5 is connected to the electric motor 6, which is connected through the network switch 7 to the network 8. The rectifier 2, the capacitor 3, and the inverter 4 comprise converter. The converter and switches 1, 5, 7 are controlled from the microprocessor 9 (or manually). The network switch 7 is equipped with an NC contact 10 connected to the locking input of the converter (inverter 4).

The device operates as follows. In the closed positions of the switches 1 and 5 and disabled 7 according to the signals of the controller 9, the motor accelerates to a frequency close to the frequency of the network 8. For this purpose, the inverter 4 during acceleration gradually increases the output frequency starting from zero. At the end of the engine acceleration process, the binverter 4, as a rule, synchronizes with the network 8. After that, the controller 9 issues a command to close the network switch 7. In the process of executing this command, the contact 10 opens and only after a few milliseconds the contacts 7 open. causes the inverter 4 to lock immediately. The execution time of such a command is one microsecond. Such a locking input carries out the removal of control pulses from transistors and is available in all converters (for example, the circuit of the Stop button). On the motor side, the inverter 4 with closed transistors is a diode bridge, the capacitor 3 is connected to its poles. Therefore, it acts as a damping circuit when contacts 7 are closed. Such a circuit reduces possible overvoltages and vibrations that occur when connected due to non-simultaneous contact closure, their bounce, avoidance of common mode during synchronization, etc.

After closing the contacts 7 with a slight delay, the contacts 5 can be opened by the command of the controller 9.

In the known device, such operations were performed according to a rigid program. Mechanical switches (contactors, circuit breakers) have a wide variation in switching times. Therefore, large time delays caused by this lead to synchronization disturbances during switching, which causes current surges and voltage fluctuations. In the proposed device, thanks to the new connection (block contact 10-converter 4), these disadvantages are significantly weakened.

Sources of information: 1. Patent RU 2154891 C1, cl. H02P 1/54, 1991.

Claims (1)

Frequency-driven electric drive containing an asynchronous electric motor connected to the network via a network switch and to a frequency converter via a start switch, the control inputs of the switches are connected to the controller, the converter is connected to the network via an input switch and equipped with a pulse blocking input, characterized in that the input is connected disconnecting block contact network switch.