RU2569337C2 - Ir-hot air convection-vacuum method for drying of winding insulation for magnet system in electrical traction machine and device for its implementation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention is related to production and repair of electrical machines, for example, of windings for electrical traction machines (ETM) of locomotives and multiple units. According to IR-hot air convection-vacuum method and device for its implementation drying of winding insulation for magnet system in rotated uniformly ETM is carried out due to combination of three methods of drying: infrared radiation (IR), convection and vacuum. The installation consists of the base (3), to which rack (2) is mounted with infrared (IR) radiators. Frame (1) is set onto the base by an overhead crane and through reducing gear (5) and master bearing roller (4) it is driven into rotation by integral frequency-controlled asynchronous motor (6).

EFFECT: improved quality of drying for winding insulation of magnet system in ETM frame, reduced power consumption and time for process of drying.

5 cl, 1 dwg

Description

The invention relates to electrical engineering, in particular to the production and repair of electrical machines, for example windings of traction electrical machines (TEM) of locomotives and motor-car rolling stock.

A known method of drying the insulation of the windings of the magnetic system of the core of the TEM in a specialized drying chamber-type oven with forced air circulation [1].

The disadvantage of this method is that this drying technology is low quality and very energy intensive with a long drying time. With an installed furnace power of 80 kW, the drying time takes from 10 to 15 hours.

The closest technical solution, selected as a prototype, is a device for implementing a local method of sealing the insulation of the frontal parts of the windings of traction electric machines, proposed by scientists of Irkutsk State University of Railway Engineering, using infrared (IR) radiation [2].

This device for implementing the local method of sealing the insulation compound of the frontal parts of the windings of traction electric machines is intended only for drying the insulation of the anchor winding.

The objective of the invention is to improve the quality of drying the insulation of the windings of the magnetic system of the TEM core, reducing energy consumption and time for the drying process.

The solution of the proposed problem is achieved by drying the insulation of the windings of the magnetic system of a uniformly rotating TEM core by a combination of three drying methods: due to infrared radiation, convection and vacuum.

A device for implementing the infrared-convective-vacuum method of drying the insulation of the windings of the magnetic system of the TEM core is shown in Fig. 1.

The core of the TEM 1 crane-beam is placed on the base 3, in which is mounted the rack 2 with infrared (IR) emitters. Next, the base is driven into rotation by a frequency-controlled asynchronous motor 6 through a gearbox 5 and a driving support roller 4.

IR emitters provide heat transfer intensity. The air flow generated by the fan 8 and the induction motor 9 evenly distributes the temperature throughout the entire thickness of the insulation layer. The shock effect of the air flow causes an intensive separation of moisture particles from the solid phase and their removal outside the drying zone. This, in turn, is a source of continuous disturbances in the laminar layer, that is, turbulization, and also reduces the absorption of the radiation flux by a layer of water vapor at the insulation surface and in the intermediate zone. And finally, with such a scheme of operation of the ventilation element, negative pressure (vacuum drying) is created in the insulation processing zone, which accompanies lowering the temperature and heating rate of the insulation without reducing the intensity of the IR energy supply and moisture loss.

The quality management of drying wetted or impregnated insulation of the windings of the magnetic system of the TEM core, depending on the properties of the impregnating liquid and the regulation of the infrared energy supply, can be organized using this device in various ways.

As a result of applying the infrared-convective-vacuum method of drying the insulation of the windings of the magnetic system of the TEM core and the device for its implementation, the reliability of the TEM will significantly increase due to better drying of its insulation, as well as significantly, by 7 .... 10 times, the cost of electricity attributable to drying.

Information sources

1. Frenkel, E.B. Repair of electrical machines, electric rolling stock and diesel locomotives. Text / E.B. Frenkel, V.G. Komolov, S.I. Faib. M .: Transport, 1966. - 455 p.

2. RF patent No. 2396669. The local method of sealing the insulation compound of the frontal parts of the windings of traction electric machines. Text / IPC Н02К 15/12. Application dated 05/04/2009

Claims (5)

1. The infrared-convective-vacuum method of drying the insulation of the windings of the magnetic system of the core of the traction electric machine (TEM), characterized in that the drying of the insulation of the windings of the magnetic system of the evenly rotating core of the TEM is carried out by a combination of three drying methods: due to infrared (IR) radiation, convection and vacuum. 2. A device for implementing the infrared-convective-vacuum method of drying the insulation of the windings of the magnetic system of the TEM core, consisting of a base on which the TEM core is placed and into which a rack with infrared emitters is mounted, as well as a fan that creates air flow, is designed to implement infrared convective-vacuum method of drying the insulation of the windings of the magnetic system of the TEM core. 3. A device for implementing the infrared-convective-vacuum method of drying the insulation of the windings of the magnetic system of the TEM core according to claim 2, characterized in that the base is designed to rotate the TEM core using a frequency-controlled asynchronous motor, gearbox and driving support roller. 4. A device for implementing the infrared-convective-vacuum method of drying the insulation of the windings of the magnetic system of the TEM core according to claim 2, characterized in that the IR emitters provide heat transfer intensity. 5. A device for implementing the infrared-convective-vacuum method of drying the insulation of the windings of the magnetic system of the TEM core according to claim 2, characterized in that the air flow generated by the fan and the induction motor evenly distributes the heating temperature over the entire thickness of the insulation layer of the windings of the TEM core, creating at the same time, in the insulation treatment zone, negative pressure (vacuum drying) is associated with lowering the temperature and heating rate of the insulation without reducing the intensity of infrared energy supply and moisture loss.