RU2525296C2 - Selective method to dry moist or impregnated insulation of anchor windings of traction electric machines with infrared radiation and device for its realisation - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention relates to the field of electric engineering and electric machine building, in particular, to manufacturing and repair of electric machines, for instance, windings of traction electric machines (TEM) of locomotives and multiple-unit rolling stock. According to the proposed selective method for drying of moist and impregnated insulation, drying of insulation of windings in an evenly rotating anchor of TEM is carried out by long-wave pulse ceramic infrared (IR) emitters, arranged along the length of the active part of the anchor, and also at the side of its front part. The proposed device for realisation of this method consists of a stand (1) with an attached variable-frequency asynchronous electric drive (3) and a rack (2), on which long-wave pulse ceramic IR-emitters are installed. The TEM anchor is rotated, and simultaneously the moist or varnish-(compound-)impregnated insulation of the front and active parts of the anchor winding in the rotating TEM is heated to the temperature of 100 … 120° C with the help of the specified IR-radiators, which provides for drying of insulation.

EFFECT: technical result achieved when using the proposed invention consists in provision of even heating of windings insulation along the entire area of the anchor, which increases quality of drying of TEM anchor winding insulation with simultaneous reduction of power inputs and time for technological process of insulating drying.

4 cl, 2 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.

There is a local method of sealing the insulation of the frontal parts of the windings of the TEM, proposed by scientists of the Irkutsk State University of Railway Engineering, using infrared (IR) radiation [1].

The disadvantage of this method is that only the frontal part of the TEM armature winding must be insulated. Also, during operation of the installation for the implementation of this method, harmful conditions are created for personnel working due to the presence of solvent vapors arising from the polymerization of varnish or compound during the drying of the insulation of the armature windings. This is due to the lack of exhaust ventilation in the installation.

The closest technical solution, selected as a prototype, is an infrared irradiation unit for drying impregnating varnishes in the manufacture of anchors (VEB Zentrales Entwicklungsburo Infrarot, Berlin). The installation is equipped with medium-wave integral IR emitters, which are located with a crown around the irradiated armature - a cylindrical object, on which, with such an arrangement of emitters, the radiation falls normally to the surface [2].

The disadvantage of this device is the failure to ensure fully uniform heating of the insulation of the windings over the entire area of the armature due to its location on this installation in a stationary state. Integrated IR emitters are energy consuming.

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

The solution of the proposed problem is achieved in that drying the insulation of the windings of a uniformly rotating TEM armature is carried out by long-wave impulse ceramic IR emitters located along the length of the active part of the armature, as well as from the side of its frontal part.

A device for implementing the selective method of drying moistened or impregnated insulation of the windings of the armature of a TEM with IR radiation is shown in Figs. 1 and 2.

This device consists of two main components: bed 1 (Fig. 1) with a stand 2, on which long-wave impulse ceramic IR emitters are located. An anchor with a crane beam is installed on the rollers 6 and through the gearbox 4 and the coupling 5 is driven into rotation by an attached frequency-controlled asynchronous electric motor 3.

A frequency-controlled asynchronous drive consists of a magnetic starter, a frequency converter, an asynchronous three-phase electric motor, a belt drive of a gearbox and drive-supporting rubber rollers.

On the rack are three curved IR emitters 10 (Fig. 2), designed to dry the insulation of the frontal part 8 of the armature winding, and six flat IR emitters 11, designed to dry the insulation of the active part 9 of the armature winding TEM.

The frame with an attached frequency-controlled asynchronous drive is designed to accommodate, fix and ensure smooth rotational movement of the TEM armature in a wide range. Placing and fixing on the bed is carried out using the drive-supporting and supporting rubber rollers 6.

The speed control of the induction motor 3 to the optimum for the drying process in this installation will be carried out by the frequency converter.

To ensure the protection of workers from harmful solvent vapors during operation of the installation, an exhaust ventilation window 7 is provided (Fig. 1).

The quality control of drying wetted or impregnated insulation of the windings of the TEM armature, depending on the properties of the impregnating liquid and the regulation of IR energy supply, can be organized using this device according to various schemes.

As a result of applying the selective method of drying the insulation of the windings of the armature of the TEM with IR radiation and a device for its implementation, the reliability of the TEM is significantly increased due to the implementation of a better process of drying its insulation.

Information sources

1. Pat. 2396669 of the Russian Federation. IPC Н02К 15/12. The local method of sealing the insulation of the frontal parts of the windings of traction electric machines [Text] / AMKhudonogov, I.A. Khudonogov, V.N. Ivanov, N.G. Il'ichev, D.A. Olentsevich, V.V. Sidorov, E. M. Lytkina; applicant and patent holder of the State Educational Institution of Higher Professional Education “Irkutsk State University of Railway Engineering”. No. 2009117049/28; declared 05/04/2009; publ. 08/10/2010 Bull No. 22.

2. Borchert R. Technique of infrared heating [Text]: trans. with him. under the editorship of I. B. Levitina / R. Borchert, V. Yubits. - M.: State Energy Publishing House, 1963. - 278 p.

Claims (4)

1. A selective method of drying wetted or impregnated insulation of the windings of the armature of a traction electric machine (TEM) using infrared (IR) radiation energy, characterized in that drying the insulation of the windings of a uniformly rotating TEM armature is carried out by long-wave impulse ceramic IR emitters located along the length of the active part anchors, as well as from its frontal part. 2. A device for implementing the selective method of drying the wetted or impregnated insulation of the windings of the TEM armature, consisting of a bed with an attached frequency-controlled asynchronous electric drive and a rack on which IR emitters are located, is designed to implement the selective method of drying the moistened or impregnated insulation of the windings of the TEM armature. 3. A device for implementing the selective method of drying wetted or impregnated insulation of the windings of the TEM armature according to claim 2, characterized in that the frequency-controlled asynchronous drive, consisting of a magnetic starter, a frequency converter, an asynchronous three-phase electric motor, a belt drive, a gearbox and a drive supporting rubber rollers, designed to give a smooth rotational movement to the TEM anchor in a wide range. 4. A device for implementing the selective method of drying moistened or impregnated insulation of the windings of the TEM armature according to claim 2, characterized in that on the rack there are three curved IR emitters designed to dry the insulation of the frontal part of the armature winding, and six flat IR emitters, intended for drying the insulation of the active part of the armature of the TEM armature with IR radiation.

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