RU2762289C1 - Installation of drying insulation of windings of three-phase asynchronous electric engine in technological pause - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to electrical engineering, namely to installations for drying the insulation of windings of a three-phase asynchronous electric engine; it can be used to protect three-phase asynchronous electric engines operating with significant interruptions between actuations, mainly in premises with high humidity and outdoors. An installation for drying the insulation of windings of a three-phase asynchronous electric engine in a technological pause contains reactive power sources made up of electrolytic capacitors and diodes switched on counter and in parallel, which create drying current that ensures that the insulation temperature of windings is 2-3°C above the ambient temperature. Due to the use of electrolytic capacitors, weight and size parameters of the installation are also reduced.

EFFECT: increasing the reliability of the winding insulation of the three-phase asynchronous electric engine due to the stability of the operation of the device for drying winding insulation.

1 cl, 1 dwg

Description

The invention relates to electrical engineering, namely to installations for drying insulation of windings of a three-phase asynchronous electric motor, and can be used to protect three-phase asynchronous electric motors operating with significant interruptions between switching on in rooms with high humidity and outdoors.

Known devices for drying the insulation of windings and compensating for the reactive power of a three-phase electric motor (see patent for invention RU 2683588, H02K 23/03, 2018, patent for utility model RU 181888, H02K 15/12, 2018, patent for utility model RU 181885, H02K 12/15/2018), containing capacitors connected in series with the windings of a three-phase asynchronous motor, between which closing contacts are installed, the zero point of the windings of a three-phase asynchronous motor is connected to the neutral wire of the supply network.

The disadvantage of the known device is the complexity of the design, the difficulty in setting the magnitude of the current.

Known three-phase capacitor of the company OJSC "Mirkon" of the RCM3 series (see link metal case with three connection pins.

The closest in technical essence and the achieved result is a device for heating the windings of an electric motor (see Designing complex electrification. Edited by LG Prischepa M .: Kolos, 1983, p. 115, Fig. 5.9 a), including the phases of a three-phase power source communicated through reactive power sources with phases of an induction motor and a three-phase contactor connected, on the one hand, with the phases of a three-phase power source, and on the other hand, with an electric motor.

The disadvantage of the prototype device: it is the large size and weight of the capacitors, their large installed power.

The technical result is to reduce the weight and size of the capacitors.

The technical result is achieved by the fact that in the installation for drying insulation of windings of a three-phase asynchronous electric motor in a technological pause, including the phases of a three-phase power supply communicated through reactive power sources with the phases of an induction motor, and a three-phase contactor connected, on the one hand, with the phases of a three-phase power supply, on the other hand, with a three-phase electric motor, according to the invention, the reactive power sources are made in the form of electrolytic capacitors and diodes connected in opposite directions and in parallel.

Substantiation of criteria for patentability of an invention:

The novelty is due to the fact that the proposed set of essential features is not known from the prior art, namely: the phases of the three-phase power supply are connected to the corresponding phases of the asynchronous electric motor through a back-connected diode and an electrolytic capacitor and a three-phase contactor. As a result, when using the claimed set of features, a reduction in the size of the device is ensured, the elimination of a decrease in the insulation quality of the winding of a three-phase asynchronous electric motor, an increase in the stability of the device for drying the insulation of windings of a three-phase asynchronous electric motor.

Industrial applicability is confirmed by the possibility of implementing a technical solution in electrical installations with three-phase asynchronous electric motors intended for technological processes in the field of agriculture and the food industry.

The essence of the invention is illustrated by drawings, where the figure shows a schematic electrical diagram of the installation for drying insulation of windings of a three-phase asynchronous electric motor in a technological pause.

The installation for drying insulation of windings of a three-phase asynchronous electric motor in a technological pause includes phases 1, 2, 3 of a three-phase power supply 4, communicated through reactive power sources 5, 6, 7 with phases 8, 9, 10 of an asynchronous electric motor 11 and a three-phase contactor 12 connected to on the one hand, with the phases of a three-phase power supply 4, on the other hand, with an electric motor 11. The reactive power sources 5, 6, 7 are made in the form of electrolytic capacitors 13, 14, 15 and diodes 16, 17, 18 connected in opposite directions and in parallel.

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

When voltage is applied to phases 1, 2, 3, drying of the insulation of the windings of a three-phase asynchronous electric motor 11 occurs, due to reactive power sources 5, 6, 7, consisting of oppositely connected electrolytic capacitors 13, 14, 15, and diodes 16 connected in parallel to them , 17, 18, provide electrical connection between phases 1, 2, 3, a three-phase power supply 4 and phases 8, 9, 10 of a three-phase asynchronous electric motor 11, creating a drying current of the insulation of the windings of a three-phase asynchronous electric motor 11 of sufficient magnitude to maintain the insulation temperature of the windings at 2-3 ° C above the ambient temperature, which excludes the existence of moisture on the insulation of the windings. The use of electrolytic capacitors instead of polar ones is due to the fact that they have smaller dimensions and perform the same function as polar ones, and the connection of diodes in parallel and opposite to them provides a load reduction, while creating a current at which a sufficient amount of heat is released to dry the winding insulation, excluding the formation of moisture (condensation) on the insulation of the windings, as a result, the drying efficiency increases, with reduced weight and dimensions of the installation.

Claims (1)

Installation for drying insulation of windings of a three-phase asynchronous electric motor in a technological pause, including the phases of a three-phase power source communicated through reactive power sources with the phases of an asynchronous electric motor, and a three-phase contactor connected, on the one hand, with the phases of a three-phase power source, on the other hand, with the phases of a three-phase an electric motor, characterized in that the reactive power sources are made in the form of electrolytic capacitors and diodes connected in opposite directions and in parallel.

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