RU2683588C1 - Device for holding insulation of windings of three-phase asynchronous motor windings in technological pass - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to devices intended for drying of three-phase asynchronous motor windings insulation in process pause, and can be used for protection of three-phase asynchronous electric motors operating in rooms with high humidity and outdoors. Device comprises three three-phase capacitors with three leads at each, on one side connected to outputs of three-phase power supply, on the other side connected to three leads of three-phase asynchronous motor, three-phase contactor, according to the invention, comprises a main, connected to a power source, and an additional three-phase circuit breakers connected to the main one, wherein input three leads of main circuit breaker are connected to three leads of power supply, respectively, and output three outputs are respectively with three input terminals of additional automatic circuit breaker and with three input leads of contactor, wherein the first and second terminals of the first three-phase capacitor are connected to the first and second output terminals of the additional automatic circuit breaker, respectively, and third lead of first three-phase capacitor is connected to third lead of three-phase asynchronous electric motor, wherein first and second leads of second three-phase capacitor are connected to first and third output terminals of additional automatic circuit breaker, respectively, and third output of second three-phase capacitor is connected to second output of three-phase asynchronous electric motor, also first and second outputs of third three-phase capacitor are connected to third and second output terminals of additional automatic circuit breaker, respectively, and the third output of the third three-phase capacitor is connected to the first output of the three-phase asynchronous motor, where the three outputs of the contactor are respectively connected to three outputs of the three-phase asynchronous motor.

EFFECT: technical result is higher reliability of operation due to exclusion of resonance of current on harmonic with high frequency, higher stability of wind drying device.

1 cl, 1 dwg

Description

The invention relates to electrical engineering, in particular to devices for drying the insulation of the windings of a three-phase asynchronous electric motor in a technological pause, and can be used to protect three-phase asynchronous electric motors that work with significant interruptions between inclusions in rooms with high humidity and outside.

A device is known for preventing humidification of the windings of three-phase asynchronous motors during operational pauses (see AS SU No. 1361681, class Н02К 15/12, publ. 1987), containing capacitors connected in series with the windings of a three-phase asynchronous motor, between by which the closing contacts are installed, the zero point of the windings of a three-phase asynchronous electric motor is connected to the neutral wire of the supply network.

The disadvantage of this device: you want to display the zero point of a three-phase asynchronous motor, which in practice is in most cases impossible.

Known three-phase capacitor of the company OJSC "Mirkon" RCM3 series (see link http: //promcatalog.rf/Products? FirmId = 76710 = 76710), containing three single-phase capacitors connected in series in a circuit based on a metallized polypropylene film with self-healing properties, in a metal case with three terminals for connection.

The closest in technical essence and the achieved result is a device for preventing humidification of the windings of a three-phase asynchronous motor in a technological pause (see patent for utility model RU 92998, Н02K 15/12, 2010), containing three three-phase capacitors with three leads, with one parties connected to the terminals of a three-phase power source, on the other hand, connected to three terminals of a three-phase asynchronous motor, a three-phase contactor.

The disadvantage of the prototype: low reliability due to the mode of resonance of the current at harmonic with a high frequency, which leads to uncontrolled and uncontrolled steaming of the insulation of the windings of a three-phase asynchronous motor in a device to prevent wetting of the windings of a three-phase asynchronous motor in a technological pause.

The technical result is to increase the reliability of operation by eliminating current resonance at a harmonic with a high frequency, therefore, eliminating the reduction in the insulation quality of the windings of a three-phase asynchronous motor and increasing the stability of the drying device of the insulation of the windings of a three-phase asynchronous motor in a technological pause.

The technical result is achieved by the fact that the drying insulation device for the windings of a three-phase asynchronous motor in a technological pause, containing three three-phase capacitors with three terminals each, on the one hand, connected to the terminals of a three-phase power source, on the other hand, connected to three terminals of a three-phase asynchronous motor, the three-phase contactor according to the invention comprises a main, connected to a power source, and an additional, connected to the main, three-phase automatic circuit breakers, while the input three outputs of the main circuit breaker are connected respectively to the three terminals of the power source, and the output three outputs are respectively connected to the three input terminals of the additional circuit breaker and, respectively, to the three input terminals of the contactor, the first and second terminals of the first three-phase capacitor respectively connected with the first and second output terminals of the additional circuit breaker, and the third terminal of the first three-phase capacitor is connected connected to the third terminal of the three-phase induction motor, the first and second terminals of the second three-phase capacitor connected respectively to the first and third output terminals of the additional circuit breaker, and the third terminal of the second three-phase capacitor connected to the second terminal of the three-phase asynchronous motor, also the first and second terminals of the third three-phase capacitors are connected respectively to the third and second output terminals of the additional circuit breaker, and third The third terminal of the three-phase capacitor is connected to the first terminal of the three-phase asynchronous electric motor, where the output three terminals of the contactor are respectively connected to the three terminals of the three-phase asynchronous electric motor.

Justification of the eligibility criteria of the invention:

The efficiency of the device for drying the insulation of the windings of a three-phase asynchronous motor in a technological pause is confirmed by the test results that were conducted on the workshop electric machines of the Kuban farm during the operation of electrical equipment in normal mode. The expediency of using three-phase capacitors as a protection against current resonance at a high frequency has been proved. The claimed invention allows you to automatically dry the insulation of the windings of a three-phase asynchronous motor with its simple and rational design. From this we can assume that the criterion of "inventive step" is fulfilled.

The novelty is due to the fact that the proposed set of essential features is not known from the prior art, namely: the connection of the first and second terminals of the first three-phase capacitor, respectively, with the first and second output terminals of the additional circuit breaker, and the third terminal of the first three-phase capacitor with the third terminal of the three-phase induction motor, the connection of the first and second terminals of the second three-phase capacitor, respectively, with the first and third output terminals additional circuit breaker, and the third terminal of the second three-phase capacitor with the second terminal of the three-phase asynchronous motor, connecting the first and second terminals of the third three-phase capacitor, respectively, with the third and second output terminals of the additional circuit breaker, and the third terminal of the third three-phase capacitor with the first terminal of the three-phase asynchronous motor .

Industrial applicability is confirmed by the feasibility of implementing technical solutions in electrical systems with three-phase asynchronous electric motors designed for technological processes in the field of agriculture and food industry.

The invention is illustrated by drawings, where figure 1 shows a circuit diagram of a device for drying insulation of windings of a three-phase asynchronous motor in a technological pause.

The device for drying the insulation of the windings of a three-phase asynchronous motor in a technological pause contains three three-phase capacitors 1, 2, 3 with three terminals for each 4, 5, 6, 7, 8, 9, 10, 11, 12, on the one hand, connected to terminals 13 , 14, 15 of a three-phase power supply 16, on the other hand, connected to three terminals 17, 18, 19 of a three-phase asynchronous electric motor 20, a three-phase contactor 21. The claimed device also contains a main connected to a power source 16, and an additional connected to the main, three phase automatic switches 22 and 23, while the input three terminals 24, 25, 26 of the main circuit breaker 22 are connected respectively to the three terminals 13, 14, 15 of the power source 16, and the output three terminals 27, 28, 29 respectively to the three input terminals 30 , 31, 32 of the additional circuit breaker 23 and, respectively, with three input terminals 33, 34, 35 of the contactor 21, and the conclusions 4, 5 of the first three-phase capacitor 1 are connected respectively to the output terminals 36, 37 of the additional circuit breaker 23, and terminal 6 of the three-phase capacitor 1 from connected to terminal 19 of a three-phase induction motor, while the terminals 7, 8 of the second three-phase capacitor 2 are connected respectively to the output terminals 36, 38 of the additional circuit breaker 23, and terminal 9 of the second three-phase capacitor 2 is connected to terminal 18 of the three-phase asynchronous motor, also terminals 10, 11 of the third three-phase capacitor 3 are connected respectively to the output terminals 38, 37 of the additional circuit breaker 23, and terminal 12 of the third three-phase capacitor is connected to terminal 1 7 of a three-phase asynchronous electric motor, where the output three terminals 39, 40, 41 of the contactor 21 are connected respectively to the three terminals 17, 18, 19 of the three-phase asynchronous electric motor.

The drying device insulation of the windings of a three-phase asynchronous motor in a technological pause works as follows.

When the contactor 21 and the circuit breakers 22, 23 are turned on, the capacitors 1, 2, 3 act as reactive power compensators for the three-phase asynchronous electric motor 20 and, in addition, help to improve the technical conditions for starting the electric motor 20, since according to one of the “laws of switching” the voltage on the capacitor does not can change abruptly, and therefore, a dangerous surge voltage surge will not be observed.

When the contactor 21 is turned off and the circuit breakers 22, 23 are turned on, drying of the winding insulation of the three-phase asynchronous electric motor 20 occurs: capacitors 1, 2, 3 provide electrical communication between the terminals 13, 14, 15 of the three-phase power source 16 and the terminals 17, 18, 19 of the three-phase asynchronous motor 20 in accordance with the claimed device provides a drying current of the windings of a three-phase asynchronous electric motor 20 of sufficient magnitude to maintain the temperature of the insulation of the windings 2-3 ° C higher than the temperature Tours of the environment, which excludes the existence of water on the winding insulation.

A feature of the proposed device compared to the prototype is that during drying, a current with a frequency of 50 Hz flows at the windings of a three-phase asynchronous electric motor 20, the magnitude of which is 10% higher than that of the prototype, as well as currents of higher harmonic components. This significantly increases the drying efficiency, since for the most pronounced 5, 7, 9, 11 harmonic harmonics, the active resistance increases by 22, 27, 31, 34% of the nominal active resistance, respectively, while the current amplitudes of the above harmonic components can reach from 3-15% of the nominal current value of a three-phase asynchronous electric motor 20, which is on average 30% more than that of the prototype, depending on the range of placement of the electric motor 20 and three-phase capacitors 1, 2, 3.

Claims (1)

A device for drying the insulation of the windings of a three-phase asynchronous electric motor in a technological pause, containing three three-phase capacitors with three terminals each, on the one hand connected to the terminals of a three-phase power source, on the other hand connected to three terminals of a three-phase asynchronous motor, a three-phase contactor, characterized in that it contains main, connected to the power source, and additional, connected to the main, three-phase circuit breakers, while the input three output and the main circuit breaker is connected respectively to the three terminals of the power source, and the output three terminals are respectively to the three input terminals of the additional circuit breaker and, respectively, to the three input terminals of the contactor, the first and second terminals of the first three-phase capacitor connected respectively to the first and second output terminals of the additional circuit breaker, and the third terminal of the first three-phase capacitor is connected to the third terminal of the three-phase asynchronously about the electric motor, while the first and second terminals of the second three-phase capacitor are connected respectively to the first and third output terminals of the additional circuit breaker, and the third terminal of the second three-phase capacitor is connected to the second terminal of the three-phase asynchronous motor, and the first and second terminals of the third three-phase capacitor are connected respectively to the third and the second output terminals of the additional circuit breaker, and the third terminal of the third three-phase capacitor oedinen a first terminal of the three-phase induction motor where output three output contactor are respectively connected to three terminals of three-phase induction motor.

Images