RU2476975C2 - Device for drying of electric machine windings - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device for drying of electric machine windings comprises a system of heating and air supply, and also a system to monitor variation of resistance in an electric machine winding. At the same time, according to the invention, the heating system comprises an air heating chamber, gas burners and a fan installed in them, at the outlet of the heated air chamber there is a grid and a flexible pipe, at the end of which there is a helical attachment, and the system to monitor variation of resistance in an electric machine winding is equipped with a sensor of resistance, temperature, and a device, which, as normative resistance has been achieved in the winding, switches off the system of heating and air supply. The specified helical attachment may be equipped with guides, arranged evenly to the cross section of the nozzle and along the attachment following a helical line, at the end of the attachment there is an air flow reflector into the space between the anchor and the stator.

EFFECT: invention provides for the possibility to dry insulation of electric machine windings without dismantling, using has to heat air, which results in reduction of time for drying of traction electric machines and reduced consumption of electric energy.

2 cl, 2 dwg

Description

The device relates to the field of electrical engineering and can be used in the maintenance and repair of electrical machines.

During the operation of electric rolling stock in winter, the insulation of the traction motors is wetted, which leads to a sharp decrease in their reliability, and sometimes to a breakdown of insulation.

The reason for wetting the insulation is its slower heating with respect to the surrounding air. In contact with the insulation of the windings, the warmer ambient air cools, its humidity decreases, and excess water vapor settles on the surface of the insulation in the form of hoarfrost. Intensive insulation humidification occurs when the temperature changes, when electric locomotives are delivered to the heated workshop in autumn, spring and winter.

A known method of heating and drying the insulation of traction motors (RF patent No. 2128392, IPC Н02К 15/12, filed December 16, 1997).

Thanks to the creation of a special exhaust ventilation channel, an optimal combination of hot and cold air flows in the drying chamber is ensured. In addition, the design of the installation has a high "survivability": in the event of a failure of several minor mechanical and electrical components, the installation remains operational.

The specified technical result is achieved in that drying the insulation involves directly heating the metal part of the product with electric heating elements while simultaneously drying it with a stream of hot air circulating through the closed duct of the duct, while the air temperature, the same at all points of the drying chamber, is supported by a seven-power power regulator with the possibility of its operational changes. In addition, a special exhaust ventilation channel ensures the optimal concentration of vapor of the impregnating composition in the drying chamber.

The installation for impregnation and drying of electrical products, mainly windings of electrical machines, including a pre-heating unit, an impregnation unit and a drying chamber, is characterized in that the pre-heating unit has automatically connected contact groups for sequential connection and heating of products with a stabilized current, and the impregnation unit contains hermetically closed tank with a flexible transparent indicator tube connected to an impregnation bath tube for feeding the composition into the bath and a tube for supporting Nia predetermined level in the tub, the latter is provided with a threaded adapter tube and the level of scale, and the adjusting screw tip and bath set measuring range.

This method of heating and drying the insulation of traction motors is intended for use in the factory, we need to provide insulation drying directly on the electric locomotive.

A device is also known for drying the insulation of the windings of electric motors (RF patent No. 2266603, IPC Н02К 15/00, filed April 22, 2004).

The essence is that in the device for drying the insulation of the motor windings containing a switching unit, the output of which is connected to the input of the power supply, the output of which is connected to the first input of the temperature control unit, the second input of which is connected to the output of the motor windings, and the output to the input of the switching unit, and the unit for regulating the load current, there is a thyristor low-voltage source of rectified current having inputs: the first from the second output of the switching unit, the second from the second output of the control unit temperature, the third - from the output of the load current control unit, and the outputs: the first - to connect to the input of the motor windings, and the second - to the input of the current and voltage control unit, and the input of the load current control unit is connected to the output of the power supply. The device is equipped with a timer and an audio signal unit, the first inputs of which are connected in parallel with the output of the power supply, while the second timer input is connected to the third output of the switching unit, the first timer output is connected to the fourth input of the thyristor low-voltage current source, and the second timer output is connected to the second input sound signal block, the third timer output - with the third input of the temperature control block. The device includes a liquid crystal indicator, the four inputs of which are connected respectively to the output of the power supply, the third output of the timer, the second output of the load current control unit and the third output of the temperature control unit.

In this device, the control of the heating mode is controlled by the set temperature, in our case, by the insulation resistance of the winding, which gives a more accurate characteristic of the insulation of the winding.

The closest analogue is “Installation for drying the insulation of electrical machines” (RF patent No. 2398340, IPC Н02К 15/12, filed February 24, 2009).

The proposed installation contains a chamber for drying the insulation of the windings, a device for heating air. The insulation drying chamber is equipped with carbon filters, sensors of the automatic temperature control system, there is an automatic system for monitoring insulation resistance. Moreover, air heating is carried out by flexible composite electric heaters.

This device requires that electrical machines be dismantled and placed in a chamber, which requires additional costs. In addition, the use of flexible composite heaters requires high energy costs.

The proposed installation allows drying the insulation of an electric machine without dismantling, using gas for heating air, which is much cheaper than using electric energy, and ensuring timely shutdown of the heating and air supply system in the body of an electric machine.

The goal is achieved in that the device for drying the insulation of the windings of electric machines contains: a heating and air supply system, a control system for changing the resistance in the winding of an electric machine.

The heating system includes a heating chamber, gas burners and a fan installed in it; at the outlet of the heated air chamber there is a grate and a flexible pipe, at the end of which a screw nozzle is installed. The system for monitoring the change in resistance in the winding of an electric machine is equipped with a resistance sensor, temperature and a device that, upon reaching the standard resistance in the winding, turns off the heating and air supply system.

The screw nozzle is equipped with guides located evenly to the nozzle cross-section and along the nozzle along a helical line, at the end of the nozzle there is a reflector of the air flow into the space between the armature and the stator.

The essence of the device is illustrated by drawings, where

figure 1 presents a General diagram of a device for drying the windings of electrical machines;

figure 2 - diagram of the nozzle of a flexible pipe:

a) in cross section;

b) in longitudinal section.

Figure 1 presents the case of a traction electric machine (TEM) 1 with ventilation channels 6, a heating and air supply system, a system for monitoring the change in resistance in the winding of an electric machine 1.

The heating and air supply system consists of a chamber for heating air, a gas burner 12, a gas cylinder 20, an electric piezo igniter 13, a safety thermostat 14, a grill 10, a flexible pipe 9 with a nozzle 5, a fan 15 with an electric motor 16.

At the outlet of the TEM 1 housing, a pipe 8 with a charcoal filter 7 is installed.

The monitoring system for measuring the resistance in the TEM 1 winding includes resistance sensors 2, temperature sensors 4 mounted on the nozzle 5 of the flexible pipe 9, power wires 17 and a control unit 19 with a liquid crystal display and a start button 18.

A device is installed in the control unit that turns off the gas supply and air supply to the TEM 1 housing.

The "heating and air supply system" and the "control system for changing the resistance in the winding 3" are mounted on a trolley 22 with a parking brake 23.

Figure 2 shows the arrangement of the guides 24 and the grooves 25 of the screw nozzle 5 of the flexible pipe 9 in the cross section "a", and in the longitudinal section "b".

In section "a" it is shown that the guides 24 are arranged uniformly in cross section and along a helix along the nozzle 5. At the end of the nozzle 5, a reflector is fixed.

Installation for drying insulation 3 operates as follows.

The installation is connected to the TEM 1, which is put on the parking brake with a handle 23, then resistance sensors 2 are connected, a flexible pipe 9, together with a temperature sensor 4, is installed to the upper ventilation hatch through which heated air passes.

The start button 18 is turned on, the signal from the resistance sensors 2 of insulation 3 is fed through power cables 17 to the control unit and displayed on the liquid crystal display 11. The gas supply from the gas cylinder 20 is turned on to the gas burner 12 equipped with a safety thermostat 14. The gas is ignited by an automatic piezo igniter 13, then turn on the electric motor 16 of the fan 15. Heated air with the tongues of flame passes through the grill 10, where the tongues of flame are extinguished and the air enters through the flexible pipe 9 with a speed ν _max = 2 · ϑ _cp . The air flow due to the nozzle guides 24 located along the helix passing through the grooves 25 is twisted into a bundle with an increase in the velocity at the entrance to TEM 1 equal to ν _max = 3.2 · ϑ _cp , then it is directed by the reflector 26 into the ventilation ducts 6, passing through the ventilation channels 6 TEM 1, goes through the charcoal filter 7 of the pipe 8 into the atmosphere.

Monitoring the insulation resistance of the winding 3 begins with obtaining data from the resistance sensors 2 of the insulation of the winding 3. The information received by the control unit is processed, and the maximum allowable drying temperature is automatically set taking into account the insulation class. During the drying process, the insulation resistance of TEM 1 increases, and the temperature of the heated air gradually decreases by changing the pressure of the supplied gas. Temperature is measured by temperature sensor 4.

To capture harmful substances and moisture released during drying of TEM 1, a carbon filter 7 is installed at the outlet in the pipe 8.

The completion of drying occurs when the insulation resistance of the winding 3 corresponds to the normative and technical documentation.

The proposed device for drying the windings of electric machines has been tested during ongoing repairs and maintenance of traction electric motors of electric locomotives. According to the research results, the power of the fan motor was selected and the speed of the heated air entering the TEM was calculated.

The experiment showed a reduction in drying time of traction electric machines by 15-20% and a decrease in electricity consumption by 25-27%.

Claims (2)

1. A device for drying the insulation of the windings of electric machines, comprising a heating and air supply system and a control system for changing the resistance in the winding of an electric machine, characterized in that the heating system includes an air heating chamber, gas burners installed therein and a fan at the outlet of the chamber heated air contains a grill and a flexible pipe with a screw nozzle, the system for monitoring the change in resistance in the winding of an electric machine contains resistance, temperature and an instrument that ostizheniyu regulatory resistance in the winding and disconnects the heating air supply system. 2. The device according to claim 1, characterized in that the screw nozzle is equipped with guides located uniformly in the cross section of the nozzle and along the helix along the nozzle, and at the end of the nozzle there is a reflector of the air flow into the space between the armature and the stator.

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