RU181888U1 - Compensation and drying control device for induction motor - Google Patents

Abstract

The utility model relates to electrical engineering, namely to control devices for compensation and drying of an induction motor and can be used to protect three-phase asynchronous motors operating with significant intervals between switching on in rooms with high humidity and outside. To increase the reliability of operation due to the relative increase in the level of higher harmonics, providing a sufficient degree of drying insulation of the windings of a three-phase asynchronous electric motor, a compensation and drying control device for an asynchronous motor containing a three-phase capacitor with three leads, on the one hand, connected to the leads of a three-phase power source, on the other hand connected to the output of a three-phase asynchronous motor, a three-phase contactor, according to a utility model, contains a three-phase circuit breaker connected to a three-phase power supply, first and second coils with output and input terminals for each, a thyristor switch with input and output terminals, while the input three outputs of a three-phase circuit breaker are connected to three terminals of a three-phase power source, and the output is three outputs - respectively, with the three input terminals of the three-phase contactor, where the first output terminal is also connected to the input terminal of the first coil and to the input terminal of the thyristor switch, and the th output terminal is connected to the input terminal of the second coil and to the third output terminal of the three-phase contactor, wherein the output terminal of the first coil is connected to the first terminal of the three-phase capacitor, and the output terminal of the second coil is connected to the second terminal of the three-phase capacitor, and the output terminal of the thyristor switch is connected to the first the output of the three-phase induction motor, and the third output of the three-phase capacitor is connected to the second output of the three-phase asynchronous motor, also the output three outputs a three-phase contactor are respectively connected to three terminals of a three-phase asynchronous motor.

Description

The utility model relates to electrical engineering, namely to control devices for compensation and drying of an induction motor and can be used to protect three-phase asynchronous motors operating with significant intervals between switching on in rooms with high humidity and outside.

A device is known for preventing wetting of the windings of three-phase asynchronous motors during operational pauses (see AS SU No. 1361681, class H02K 15/12, publ. 1987), comprising 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" of the RCM3 series (see link http: //promcatalog.rf/ Products? FirmId = 76710), containing three single-phase capacitors connected in series to the circuit, based on a metallized polypropylene film with self-healing properties, in metal case with three conclusions for connection.

The closest in technical essence and the achieved result is a device for preventing wetting of the windings of a three-phase asynchronous motor in a technological pause (see utility patent RU 92998, H02K 15/12, 2010), containing a three-phase capacitor with three leads, on the one hand connected to the terminals of a three-phase power source, on the other hand connected to the terminal of a three-phase asynchronous electric motor, a three-phase contactor.

The disadvantage of the prototype: low reliability due to the relatively low level of higher harmonics, causing an insufficient degree of drying of the insulation of the windings of a three-phase induction 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 due to the relative increase in the level of higher harmonics, providing a sufficient degree of drying insulation of the windings of a three-phase asynchronous motor in the device for controlling compensation and drying of the induction motor.

The technical result is achieved by the fact that the compensation and drying control device of the induction motor containing a three-phase capacitor with three leads, on the one hand, connected to the leads of a three-phase power source, on the other hand, connected to the lead of a three-phase asynchronous motor, a three-phase contactor, according to a utility model, contains connected to a three-phase power supply, a three-phase circuit breaker, the first and second coils with output and input terminals for each, are thyristor th key with input and output terminals, while the input three outputs of the three-phase circuit breaker are connected respectively to the three terminals of the three-phase power supply, and the output three outputs are respectively connected to the three input terminals of the three-phase contactor, where the first output terminal is also connected to the input terminal of the first coil and with the input terminal of the thyristor switch, and the third output terminal is connected to the input terminal of the second coil and to the third output terminal of the three-phase contactor, while the output terminal of the first coil connected to the first terminal of the three-phase capacitor, and the output terminal of the second coil is connected to the second terminal of the three-phase capacitor, the output terminal of the thyristor switch connected to the first terminal of the three-phase asynchronous motor, and the third terminal of the three-phase capacitor connected to the second terminal of the three-phase asynchronous motor, also the output three conclusions of the three-phase contactors are respectively connected to three terminals of a three-phase asynchronous electric motor.

Justification of the eligibility criteria of a utility model:

The novelty is due to the fact that the proposed set of essential features is not known from the prior art, namely: the installation of a thyristor switch with input and output terminals, where the input terminal is electrically connected to the output of a three-phase power source, and the output output is electrically connected to the output of a three-phase asynchronous motor in the control device for compensation and drying of an induction motor containing a three-phase capacitor with three leads, on the one hand, connected to the leads of a three-phase and a power source, on the other hand connected to a terminal of a three-phase asynchronous electric motor, a three-phase contactor.

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 essence of the utility model is illustrated by drawings, where figure 1 shows a circuit diagram of a device for controlling compensation and drying of an induction motor.

The compensation and drying control device of the induction motor contains a three-phase capacitor 1 with three terminals 2, 3, 4, on the one hand connected to the terminals of the three-phase power supply 5, on the other hand connected to the terminal of the three-phase asynchronous motor 6, three-phase contactor 7. The device also contains a three-phase circuit breaker 8 connected to a three-phase power supply 5, the first 9 and second 10 coils with output and input terminals for each, a thyristor switch 11 with input and output terminals, p and the input three terminals of the three-phase circuit breaker 8 are connected respectively to the three terminals of the three-phase power supply 5, and the output three terminals are respectively to the three input terminals of the three-phase contactor 7, where the first output terminal is also connected to the input terminal of the first coil 9 and to the thyristor input terminal key 11, and the third output terminal is connected to the input terminal of the second coil 10 and to the third output terminal of the three-phase contactor 7, while the output terminal of the first coil 9 is connected to the first terminal 2 tr e-phase capacitor 1, and the output terminal of the second coil 10 is connected to the second terminal 3 of the three-phase capacitor 1, and the output terminal of the thyristor switch 11 is connected to the first terminal of the three-phase asynchronous motor 6, and the third terminal 4 of the three-phase capacitor 1 is connected to the second terminal of the three-phase asynchronous motor 6, also the output three terminals of the three-phase contactor 7 are respectively connected to the three terminals of the three-phase asynchronous motor 6.

The control device compensation and drying of the induction motor operates as follows.

When the contactor 7 and the circuit breaker 8 are turned on, the capacitor 1 acts as a compensator for the reactive power of a three-phase asynchronous electric motor 6 and, in addition, help to improve the technical conditions for starting the electric motor 6, since according to one of the "switching laws" the voltage on the capacitor cannot change abruptly, and, therefore, a dangerous surge voltage surge will not be observed. In this mode, the three-phase asynchronous motor 6 compensates for the working reactive power of the three-phase capacitor 1, and in the drying mode it compensates for the reactive current of the operating thyristor switch. In this case, the thyristor switch 11 operates in the mode of a large control angle, of the order of 150 °.

When the contactor 7 is turned on and the circuit breaker 8 is turned on, drying of the winding insulation of the three-phase asynchronous electric motor 6 occurs: the capacitor 1 provides electrical connection between the terminals of the three-phase power supply 5 and the terminals of the three-phase asynchronous electric motor 6, in accordance with the claimed device, the three-phase capacitor generates current in that phase of the three-phase asynchronous an electric motor 6 to which a thyristor switch 11 is not connected, providing current supply to all three windings of a three-phase a Synchro motor 6.

Improving the reliability of the work due to the relative increase in the level of higher harmonics occurs due to the resulting surface effect (“skin effect”). As a result, current is displaced, which contributes to the heating of the surface of the conductor, and not to destructive changes in the center of the conductor.

Claims (1)

Compensation and drying control device for an induction motor, comprising a three-phase capacitor with three terminals, on the one hand connected to the terminals of the three-phase power supply, on the other hand connected to the output of the three-phase asynchronous electric motor, a three-phase contactor, characterized in that it contains a three-phase automatic circuit breaker, first and second coils with output and input terminals for each, thyristor switch with input and output terminals, with input one three terminals of a three-phase circuit breaker are connected respectively to three terminals of a three-phase power supply, and output three terminals are respectively connected to three input terminals of a three-phase contactor, where the first output terminal is also connected to the input terminal of the first coil and to the input terminal of the thyristor switch, and the third output terminal connected to the input terminal of the second coil and to the third output terminal of the three-phase contactor, while the output terminal of the first coil is connected to the first terminal of the three-phase condensate ora, and the output terminal of the second coil is connected to the second terminal of the three-phase capacitor, the output terminal of the thyristor switch is connected to the first terminal of the three-phase asynchronous motor, and the third terminal of the three-phase capacitor is connected to the second terminal of the three-phase asynchronous motor, the output three terminals of the three-phase contactor are respectively connected to the findings of a three-phase asynchronous motor.

Images