RU2139621C1 - Method for extracting winding from stator slots when repairing electrical machines (versions) - Google Patents

Abstract

FIELD: electrical engineering; repair of machines using thermosetting insulation. SUBSTANCE: two alternative versions are proposed. According to first version, stator to be repaired is placed in autoclave communicating with storage tank holding spent destructive aqueous solution that ensures its circulation; thermosetting insulation binder is first destroyed by stator treatment with working destructive aqueous solution saturated with carbon dioxide at specified temperature of 120-200 C and pressure of 4-20 at gage. Used as working destructive solution is aqueous solution of carbon dioxide prepared under above-mentioned specified conditions; upon stator treatment with hot water spent aqueous solution containing products of destruction is conveyed to storage tank, cooled down, separated from mud, and reused as working destructive aqueous solution for repeated treatment of stator under specified conditions; after that, spent aqueous solution is conveyed to storage tank, autoclave is cooled down to room temperature, stator is removed from it, and winding is removed from stator slots by any desired mechanical method. According to second version, thermosetting binder is destroyed by stator treatment with working destructive aqueous solution saturated with carbon dioxide which is supplied from storage tank; used as such is spent aqueous solution cooled down and separated from mud, and containing products of destruction remained after previous treatment. Stator is treated at specified temperature of 120-200 C and pressure of 4-20 at gage. Upon stator treatment with hot water spent aqueous solution is conveyed to storage tank, autoclave is cooled down, stator is removed from it, and winding is extracted. EFFECT: facilitated procedure, reduced cost and time required for electrical machine repairs. 3 cl, 1 dwg, 3 tbl, 3 ex

Description

 The invention relates to the repair of electrical machines, mainly with thermosetting insulation.

 When repairing electrical machines, the crucial operation is to remove the winding to be rewound from the grooves of the stator core. This operation is particularly difficult in the case of machines with thermosetting insulation, in which the winding is rigidly fixed in the grooves of the core with a thermosetting binder. The use of mechanical disassembly techniques commonly used in repair shops is not possible in this case without prior destruction of the thermosetting binder.

Known methods for removing the winding from the grooves of the stator core when repairing electrical machines, including the destruction of thermoset binder insulation by heat treatment (DE 3531039 A1, 12.03.87), or processing in an acidic environment at a temperature of 170-220 ^o C and a pressure of 8-24 ati ( SU 715592 A, 02.20.80), or in an alkaline solution containing an oxidizing agent - potassium permanganate (RU, 2077104 C1, 10.04.97).

 The winding after such treatments is easily removed from the grooves of the stator core by any of the usual methods of mechanical disassembly used in the repair shop. However, with all known processing methods, a large number of toxic substances are released into the environment. Corrosion of stator iron is observed, its magnetic properties are deteriorating.

 The closest in technical essence to the present invention is a method of removing the winding from the grooves of the stator core when repairing electrical machines, including placing the stator to be repaired in an autoclave, destroying the thermoset binder insulation by treating the stator with an aqueous working destructive solution saturated with carbon dioxide at elevated temperature and pressure, cooling the autoclave to room temperature, removing the stator and then removing the windings from the stator slots using any of the usual meth mechanical disassembly overs used in a workshop (SU, 870409 A, 07.10.81).

According to the known method, the treatment is carried out using a mixture of an aqueous solution of carbon dioxide and an organic solvent as a working destructive solution with solubility parameters of 9.7-12.3 and a boiling point above 100 ^o C at a ratio of 95: 5 to 5:95, respectively a temperature of 170-220 ^o C and a pressure of 8-24 ati.

 The solvents used in the treatment are dioxane, butanol, ethyl cellosolve, dimethylformamide, toluene.

 The known method provides removal of the winding from the grooves of the stator core, allows you to save the nominal parameters of electrical machines after repair.

 The disadvantages of this method include the need to use high-boiling organic solvents, without which complete decomposition of the binder is not ensured, as a result of which the winding is not removed from the stator slots. Work with solvents is difficult in the conditions of electrical repair enterprises and worsens the environmental conditions of the method.

 The objective of the present invention is to eliminate the above drawbacks, simplifying the technology, reducing costs and reducing the repair time of electrical machines.

 The problem is solved by this method, providing for two options for its implementation.

According to the first embodiment, the method of removing the winding from the grooves of the stator core during the repair of electrical machines is carried out by placing the stator to be repaired in an autoclave connected to a container for storing the spent solution, which ensures recycling of the working solution, breaking the thermoset binder insulation by treating the stator with an aqueous working destructive solution saturated with carbon dioxide, under specified conditions - high temperature and pressure - 120-200 ^o C and a pressure of 4-20 atm, the first processing stato and it is carried out using an aqueous solution of carbon dioxide as a working destructive solution under specified conditions, after processing the hot spent solution containing degradation products is sent to a storage tank, cooled, separated from the sludge and used as a working solution for reprocessing the stator at specified modes, then the spent solution is sent to a storage tank, the autoclave is cooled to room temperature, the stator is removed and the winding is removed from the stator slots by any of General methods of mechanical disassembly used in the repair shop.

According to a second embodiment of the present method for removing the winding from the grooves of the stator core when repairing electrical machines, the stator to be repaired is placed in an autoclave connected to a spent solution storage tank for recirculating the working solution, and the thermoset binder insulation is destroyed by treating the stator with an aqueous working destructive solution saturated carbon dioxide, which is used as a cooled and separated from the sludge waste solution containing degradation products remaining from the previous stator treatment and contained in the storage tank under the given conditions: temperature of 120-200 ^° C and a pressure of 4-20 atm, after the stator treatment, the hot spent solution is sent to the storage tank, the autoclave is cooled to room temperature, remove the stator and remove the winding from the grooves of the stator by any of the usual methods of mechanical disassembly used in the conditions of the repair shop.

 According to the second variant, the method provides for the repeated use of the spent solution as a working destructive solution, while maintaining in it the content of degradation products from 0.4 to 0.7 wt.%.

 The proposed method is illustrated by the following examples.

 The process flow chart is shown in the drawing.

Example 1. Stators of electric motors to be repaired, with cut off frontal parts with insulation of heat resistance class E (varnish FL-98), F (varnish PE-933 and compound KP-34), H (varnish KO-916K), B (compound PC -11) is loaded into the autoclave (position 1), filled with water (position 2) so as to cover all engines, but not more than 0.8 volumes of the autoclave, the autoclave is sealed and saturated with water through the carbon dioxide supply line (position 3) to increasing the pressure in the autoclave to 2 atm, determined by the manometer (item 4), get a working destructive solution and include both heating. Raise the temperature to 160 ^o C (control by thermometer pos. 5) and pressure to 14 atm and withstand this mode for 6 hours. After exposure at a given mode, the hot spent solution is sent to a container for storing the spent solution (position 6), cooled, separated from the sludge, the spent solution is pumped into the autoclave by a circulation pump for reprocessing the stator in the given mode. After repeated processing, the spent solution is sent to a storage tank, the autoclave is cooled to room temperature, the stator is removed and the winding is removed. The results of the removal of windings with thermosetting insulation of various heat resistance classes from the grooves of the stator core are shown in table 1.

Example 2. The stators of the electric motors to be repaired, with the frontal parts cut off, are placed in an autoclave (item 1) connected to a container for storing the spent solution (item 6), which circulates the working solution, the engines are filled with an aqueous working destructive solution, which is used as a cooled and a waste solution separated from the sludge containing degradation products remaining from the previous stator treatment operation and contained in the storage tank. The autoclave is sealed and, through the carbon dioxide supply line (item 3), the solution is saturated until the pressure in the autoclave is increased to 2 atm, determined by the pressure gauge (item 4) and the stators are processed at the specified modes: temperature 160 ^o C (control by thermometer item 5) and a pressure of 14 atm, after processing the stator, the hot spent solution is sent to a container for storing the spent solution (position 6), cooled to room temperature, the stator is removed and the winding is removed from the stator slots using any of the usual methods of mechanical analysis and used in a repair shop.

 Example 3. The same as example 2, but as a working solution, the solution is used after 10-fold treatment of the stator, the content of degradation products is checked in it and adjusted to 0.4-0.7 wt.% By adding pure water. Further as an example 2.

 The results of processing stators in examples 2 and 3 are given in table. 2.

 As can be seen from the attached examples, any of the variants of the method allows to achieve the same technical effect, completely remove the stator winding.

 The method allows to simplify the technology, reduce costs, reduce the repair time of electrical machines.

Claims (3)

1. The method of removing the winding from the grooves of the stator core when repairing electrical machines, including placing the stator to be repaired in an autoclave, destroying the thermoset binder insulation by treating the stator with an aqueous working destructive solution saturated with carbon dioxide at elevated temperature and pressure, cooling the autoclave to room temperature temperature, removing the stator and the subsequent removal of the winding from the grooves of the stator by any of the methods of mechanical disassembly, characterized in that the process of processing the stator is implemented at an autoclave connected to the container for storing the waste water of the working degrades solution providing its recycling, thus initially performed stator processing using as aqueous working degraded solution of an aqueous solution of carbon dioxide at a predetermined temperature of 120 - 200 ^o C and a pressure of 4 - 20 if, after stator treatment, the hot spent aqueous solution containing degradation products is sent to a storage tank, cooled, separated from the sludge and used as water of a working destructive solution for reprocessing the stator under given conditions, then the spent aqueous solution is sent to a storage tank, the autoclave is cooled, the stator is removed and the winding is removed. 2. A method of removing the winding from the grooves of the stator core when repairing electrical machines, including placing the stator to be repaired, and an autoclave, destroying thermoset binder insulation by treating the stator with an aqueous working destructive solution saturated with carbon dioxide at elevated temperature and pressure, cooling the autoclave to room temperature temperature, removing the stator and the subsequent removal of the winding from the grooves of the stator by any of the methods of mechanical disassembly, characterized in that the process of processing the stator is they are stored in an autoclave connected to a container for storing the spent aqueous working destructive solution, which ensures its recirculation, while the spent working aqueous solution with the degradation products contained in the tank for storing it is cooled and separated from the sludge contained in the tank for storing it; at a given temperature of 120 - 200 ^o C and a pressure of 4 - 20 atm, and after processing the hot spent aqueous solution is sent to a storage tank, the autoclave is cooled They remove, remove the stator and remove the winding.  3. The method of removing the winding from the grooves of the stator core during the repair of electrical machines according to claim 2, characterized in that the spent aqueous working destructive solution is used repeatedly while maintaining the content of degradation products from 0.4 to 0.7 wt.% In it.

Images