SU886151A1 - Terminal output lead of electric machine stator winding - Google Patents

Description

(54) END OUT OF WINDING THE STATOR ELECTRIC MACHINE

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The invention relates to an electric machine structure and can be used in electric machines, for example hydrogen-cooled turbogenerators.

The electric stator of the machine is known, which contains the housing, the core and the terminal ends of the winding passing through the housing and insulated from it by means of a ceramic insulator 1.

However, such a structure is leaky and not used in large hydrogen cooled electric machines.

Closest to the present invention is the end terminal of the stator winding of an electric machine with hydrogen cooling, passing through the housing and containing tape insulation and a ceramic insulator mounted on the outside of the housing with the formation of a cavity between it and tape insulation

A disadvantage of the known device is that the terminal ends of the windings of the stators of the turbogenerators are a structure consisting of copper cylinders, on which insulated tape type is applied.

As the temperature in the machine room decreases, dew falls out on the insulation of the end terminals on the inside of the stator, and the insulation is moistened. Metallic dust accumulates on the wetted insulation, which leads to a deterioration in the quality of the insulation, electrical breakdown of the insulation, or its surface closure during the operation of the turbogenerator. In addition, there is a hydrogen leakage between the joints of the support sleeve and the tape insulated end of the terminal due to the gas sealing of the sealing elements of these joints, which is under excessive pressure in the stator housing. These drawbacks lead to a decrease in the reliability of the electric machine.

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The purpose of the invention is to increase the reliability of the stator of an electric machine.

This goal is achieved by the fact that, in the known construction, the end lead from the inner side of the stator housing is provided with a protective cover with sealing elements forming between the casing and the tape insulation of the lead a sealed cavity connected to the cavity between the ceramic isolate (.LA1 and the tape isolator output.

This cavity is connected to a chamber filled with an inert gas: with a pressure exceeding the hydrogen pressure in the stator housing.

In this way, the insulation of the end terminal on the inner side of the stator housing from dew is prevented from becoming wet, since the insulation is separated from the volume of gas in the generator by a protective cover. In addition, hydrogen leakage through the leak bushing of the bearing bush and the tape insulation is prevented, since the overpressure of the inert gas in the inner and outer end terminal cavities exceeds the pressure of the gas in the stator housing

FIG. 1 shows the stator of the electric mashiny, a longitudinal section; in fig. 2 - end leads.

The stator of the electric maschine consists of the stator housing I, inside of which a cooling gas (hydrogen) is contained under excessive pressure. Through the stator housing 1, the end leads of the stator winding 2 are withdrawn, which consist of a nonmagnetic support sleeve 3, a current-carrying rod 4, insulated with high-voltage tape insulation 5 of capacitor type. The end terminal is provided on the outside of the stator case with a ceramic (porcelain) insulator 6, which, together with the sealing elements 7, forms the outer cavity 8 of the end terminal, and on the inside of the stator case, the end terminal is provided with a protective casing 9, which together with the sealing elements 10 forms the inner cavity 11 end of the output. The internal cavity 11 via the hydraulic channel 12 formed in the sleeve 3 communicates with the external cavity 8, and the cavities 11 and 8 using the hydraulic channel 13 made in the same sleeve 3 communicate with the container 14 filled with an inert gas whose pressure exceeds the hydrogen pressure in the stator housing 1.

Thus, the tape insulation 5 of the terminal output from the inner side of the stator housing is protected by a casing 9, which prevents the insulation of the insulation and the accumulation of metallic dust on it, and the presence of an overpressure of inert gas in the internal cavity 11 and outer

The cavity 8 of the terminal outlet, which exceeds the overpressure of the cooling gas in the stator housing 1, prevents hydrogen leakage through the leakiness of the joints of the support sleeve 3 and the insulation 5 of the terminal terminal.

Technical and economic advantages of the invention consist in the prevention of forced shutdowns of blocks at power plants due to turbine generators and, therefore, an increase in operational reliability indicators (MTBF, turnaround time, availability factor, etc.). The degree of improvement of reliability indicators is 3-6%.

The expected economic effect that the national economy will receive from the use of the invention is 150-300 thousand rubles. in year.

Claims (2)

1. The end terminal of the stator winding of an electrical maschion, for example a hydrogen-cooled turbogenerator, passing through the stator housing and containing a tape insulation and a ceramic insulator mounted on the outside of the stator housing to form a cavity between it and tape insulation, characterized in that , in order to increase reliability, it is equipped with a protective casing installed on the inner side of the stator housing with sealing elements forming a sealed cavity between it and the tape insulation, informing loc with said cavity between the ceramic insulator and the insulation tape. 2. A terminal outlet according to claim 1, characterized in that it is provided with a chamber filled with an inert gas with a pressure exceeding the hydrogen pressure in the stator housing, communicating with said airtight cavity between the ceramic insulator and ribbon insulation. Sources of information taken into account in the examination 1.Alekseev, A.E. Design of electric mashin. SEI, 1958, p. 63. 2. Bednarchuk Yu. V., et al. Investigation of regimes and improvement of designs of powerful turbo-generators. Kiev, “Naukova Dumka, 1972, p. 5-16. 3 T C