SU681532A1 - Device for controlling induction motor speed - Google Patents

Description

The invention relates to the field of electrical engineering and is used mainly in frequency-controlled drives of load-lifting mechanisms.

A device for controlling an induction motor using a thyristor switch connected to the phases of a motor with a pulse-phase control system l is known. The disadvantage of the device is a limited range of speed control.

The closest to the proposed invention in its technical essence and the achieved result is a device for controlling the rotational speed of an induction motor, containing a power source, switching elements in stator windings, a direct frequency converter with a control circuit, which consists of serially connected low-frequency sensors, recalculated a device, a mixer connected to a HIGH frequency sensor and converter output keys 2.

The disadvantage of this device is the presence of a large number of necessary switching elements operating in the heavy switching mode of the working and starting currents of an asynchronous short-circuited motor, which leads to large dimensions of the contact equipment and, with a large number of 1-hour inclusions, causes frequent contactors to fail.

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The purpose of the invention is to reduce the size of the device.

For this purpose, a mode switch and a phase distributor divider are introduced into the frequency converter control circuit, the mode switch being connected to a high frequency sensor, a mixer and a phase distributor, which is connected to output keys and a high frequency sensor,

0 and the frequency converter is connected in series between the switching elements and the power supply.

The drawing shows a schematic diagram of the proposed device.

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Claims (2)

The device contains a thyristor frequency converter (TFC) 1 with a direct connection, having a power part of TFC 2 and a control system 3. A low frequency sensor 4 is connected to the input of a counting device 5. The output of the high frequency sensor 6 of the converter is connected through an mixer 7 output keys 8. The mode switch (PR) 9 is connected to the mixer 7, high frequency sensor 6 and phase distributor (PR) 10. The output of the FR 10 is connected to the output switches 8. The power supply through the contactor 11 is connected to the input of the frequency converter 1. The output of frequency converter 1 is connected to non-current non-reversing contactors 12 and 13, which in turn are connected to their own motor winding 14. Depending on the command, the induction motor 14 is powered by frequency converter 1 through contactors 12 or 13. If it is necessary to operate from the network on command, the mode of operation of frequency converter 1 is affected by the influence on the control system 3. The low-frequency sensor 4 is turned off, the FR 10 is enabled, thus the thyristors are allowed to operate in the non-contact mode An ora and motor winding 14 is connected to the network through the thyristors. In reverse, the phase sequence of the motor is changed using thyristors. At the moment of transition to the network, the command signal acts on the high frequency sensor b and changes the magnitude of the applied voltage. The frequency converter 1 operates both in the frequency converter mode and in the contactless contactor mode, which is achieved by acting on the control system of the frequency converter 1 using mode switches 9 and 10, while the contactors 12 and 13 are off. All switches in the switching system of power circuits by contactors are carried out in the absence of current in the motor windings. This is achieved by removing the thyristor control pulses, after which the current drops to zero and the contactors switch. Then, supplying control pulses to thyristors is supplied with current from the motor winding. Thus, the dimensions of the contactor equipment are reduced both by eliminating the contactor reverser and entrusting the functions of reversing to the converter, and due to the supply of current-free F1F of the power circuits by the contactors 12 and 13. The economic effect is to increase the productivity of the overload performance. A device for controlling the rotational speed of an asynchronous motor with several windings per stator / containing a power source, switching elements in stator windings, a direct frequency converter with a control circuit, which consists of a series-connected low-frequency sensor, cross-over device, a mixer connected to A high-frequency sensor and output switches of the converter, characterized in that, in order to reduce overall dimensions, the conversion control circuit a frequency switch is introduced by a mode switch and a phase distributor, the mode switch is connected to a high frequency sensor, a mixer and a phase distributor, which is connected to output keys and a high frequency sensor, and a frequency converter is connected in series between switching elements and a power source. Sources of information taken into account in the examination 1. US patent number 3866097, cl. 318-212, publ. 1972. 2. USSR author's certificate No. 213166, cl. H 02 R 7/42, 1967. T On thyristors siloboi parts