RU2581819C1 - Method of winding insulation drying for electric motor with zero-sequence current and device for its implementation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device for drying of electric motor winding insulation with zero-sequence current comprises a variable resistor, which slide is connected to the first conductor of alternating-current mains while the second conductor of alternating-current mains is coupled to input of ammeter connected by its output to input of open delta, the output connected to fixed contact of the variable resistor. Double-pole switch device is mounted additionally with its output connected to peaks of open delta and its input is connected by the first and second poles of the first and second conductors of alternating-current mains respectively.

EFFECT: improved operational reliability of electric motors.

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Description

The invention relates to the field of electrical engineering and for current drying of the insulation of the windings of electrical machines. It can be used in industry and agriculture to increase the operational reliability of electric motors.

Known methods of current drying the windings of electric motors with a fixed rotor, described in the technical literature (G.Kh. Stremel. Operation and repair of electrical machines. - M.: Higher school, 1964. - S. 216-217; M.V. Antonov, N .A. Akimova, NF Kotelenets, Operation and repair of electrical machines. - M .: Higher school, 1989. - pp. 19-20).

The disadvantages of these drying methods are as follows:

- during the drying process with the rotor stationary, the illusion of a de-energized engine is created, which creates a risk of electric shock to the technological and maintenance personnel;

- the electric motor does not have a torque, therefore drying is carried out with a stationary rotor and an inoperative own fan, which violates the uniformity of heating of the phases of the motor winding;

- the drying voltage is comparable to the rated voltage of the network, which creates a risk of breakdown of insulation.

The closest in technical essence and the achieved effect to the proposed technical solution is a method of drying the insulation of the motor windings with zero sequence currents with a rotating rotor and a device for its implementation (RF patent for the invention No. 2175163, M. class. ⁷ Н02К 15/12, 15/00 , 2001, bull. No. 29). The motor windings are connected according to an open triangle circuit. The regulation of the drying current is carried out by a rheostat. Drying current is controlled by an ammeter. When the electric motor is turned on for drying, the rotor is rotated manually by push, and during drying it rotates without load on the shaft.

The disadvantages of this method and device are as follows:

- the lack of automatic start of the electric motor when it is turned on for drying, which increases the risk of injury to personnel performing a manual shaft push;

- the need for free access to the working end of the motor shaft, which, as a rule, is closed by a protective casing or fence, which increases the complexity of drying;

- significant physical effort to start the rotor of the electric motor.

The objective of the present invention is to simplify the process of starting the electric motor when drying the insulation of its windings with zero sequence currents due to the appearance of a starting torque that automatically starts the electric motor when it is turned on for drying.

The problem is solved due to the fact that in the method of drying the insulation of the motor windings connected according to the open triangle circuit, zero-sequence currents, the value of which is set by a rheostat, with a rotating rotor without external load on the shaft, unlike the prototype, the rheostat performs the function of an element that performs time shift of currents in the motor windings, and ensures its automatic start when turned on for drying.

In the device for implementing the method of drying the insulation of motor windings with zero-sequence currents containing a rheostat, the slider of which is connected to the first conductor of the alternating current network, and the second conductor of the alternating current network is connected to the input of the ammeter connected to the input of the open triangle by the output connected to the fixed contact rheostat, unlike the prototype, contains an additionally installed bipolar switching device, the output of which is connected to the tops of indoor triangle, and the input is connected the first and second poles, respectively the first and second conductors of the AC network. This allows you to automatically start the electric motor, which simplifies the drying process and reduces the likelihood of personal injury.

According to the information available to the authors, the set of essential features characterizing the essence of the claimed invention is not known from the prior art, which allows us to conclude that the invention meets the criterion of "novelty."

According to the authors, the essence of the claimed invention does not follow explicitly from the prior art for a specialist, since it does not reveal an effect on the obtained technical result — automatic start of an electric motor — a set of features that distinguish the claimed invention from a prototype, which allows us to conclude that compliance with the criterion of "inventive step".

The set of essential features characterizing the essence of the invention, in principle, can be repeatedly used in industry and agriculture to obtain a technical result consisting in the use of a rheostat as a phase-shifting element together with a bipolar switching device, which determine the achievement of the goal - simplifying the process of starting the electric motor when drying the insulation of its windings with zero sequence currents, which allows us to conclude that According to the invention, the criterion of "industrial applicability".

The invention is illustrated by the figure, which shows the electrical diagram of a device for implementing the method of drying the insulation of the motor windings 7 with zero sequence currents, containing a rheostat 5 additionally performing the function of a phase-shifting element, which together with the installed bipolar switching device 6 provides a time offset of the currents in the motor windings, providing its automatic start when turned on for drying. The slider 3 of the rheostat 5 is connected to the first conductor 1 of the AC network, and the second conductor 2 of the AC network is connected to the input of the ammeter 8. The output of the ammeter 8 is connected to the input of the open triangle, the output of which is connected to the fixed contact 4 of the rheostat 5. The output of the bipolar switching device 6 connected to the vertices of an open triangle, and the input of the first and second poles, respectively, to the first 1 and second 2 conductors of the AC network.

Drying of the electric motor is as follows.

Before starting work, check the closed state of the bipolar switching device 6. This ensures the supply of a standard phase voltage ~ Uf of the AC network from the first 1 and second 2 conductors of the AC network to the vertices of an open triangle. The voltage ~ Uf of the network is also supplied from the first 1 conductor of the AC network through the slider 3 and the fixed contact 4 of the contact of the rheostat 5 to the output of the open triangle, and from the second conductor 2 of the AC network through the ammeter 8 to the input of the open triangle.

Thus, two parallel branches are formed. One of them is formed by the middle of three windings 7 of the electric motor, which is directly connected to the AC network. The other branch is formed by series-connected windings 7, connected to the network through a rheostat 5. A current begins to flow along the formed parallel branches when a standard phase voltage ~ Uf is applied.

When this rheostat 5 performs the function of a phase-shifting element to form a rotating magnetic field and create a starting torque. Under the influence of the latter, the rotor of the electric motor begins to rotate. After the run of the rotor, the bipolar switching device 6 is opened and the standard phase voltage ~ Uf of the alternating current network is applied to the motor windings 7 connected in an open triangle circuit. Drying current of zero sequence flows through them. The rotor of the electric motor continues to rotate.

The adjustment of the drying current is carried out by moving the slider 3 of the rheostat 5. The control of the drying current is carried out according to the readings of ammeter 8.

In the drying process, the insulation resistance of the motor windings is measured by any of the known methods. Drying is stopped if the insulation resistance has reached the standard steady-state value.

Drying is stopped by disconnecting the device from the AC mains and returning the bipolar switching apparatus 6 to the position corresponding to the closed state.

Using the proposed drying method, involving the use of a rheostat as a phase-shifting element in conjunction with a bipolar switching device, made it possible to automatically start the electric motor when it is turned on for drying. This simplifies the process of turning on the electric motor for drying, drying the insulation of the electric motor with zero sequence currents, and also reduces the personal injury hazard.

Claims (2)

1. The method of drying the insulation of the motor windings connected according to the open triangle scheme, zero sequence currents, the value of which is set by a rheostat, and during the drying process, the electric motor rotor rotates without external load on the shaft, characterized in that the rheostat additionally acts as a phase-shifting element, which together with the installed bipolar switching device shifts the currents in the motor windings in time, providing automatic start of the motor when turned on him for drying. 2. Device for drying the insulation of motor windings with zero-sequence currents, containing a rheostat, the slider of which is connected to the first conductor of the alternating current network, and the second conductor of the alternating current network is connected to the input of the ammeter, connected by its output to the input of the open triangle, the output connected to the fixed contact of the rheostat , characterized in that an additional two-pole switching device is installed, the output of which is connected to the vertices of an open triangle, and the input is connected first and second poles respectively to the first and second conductors of the AC network.