SU1576998A1 - Device for thermal diagnostics in end portions of generator stator winding - Google Patents

Abstract

The invention relates to electrical engineering and can be used for the operational diagnostics of high-power turbo and hydrogenerators. The purpose of the invention is continuous monitoring of the thermal state of the frontal parts of the stator winding. For this, at least one of the rods of the frontal parts of the stator winding of the generator is placed an additional power winding 1 connected to the input of the thermosensitive element 5, made according to a bridge circuit containing a thermal resistance 7, the output of which is connected via diode 8 and limiters 12-14 of the signal level LEDs 9-11. Temperature sensor 5 and LEDs 9-11 with limiters 12-14 levels are located on the frontal part of the generator winding, and recording equipment is made in the form of photodiodes opposite LEDs 11 and connected through amplifiers with initiating LEDs combined into a light board. 2 Il.

Description

1

The invention relates to electrical engineering, in particular to the operational diagnostics of high-power electric machines.

The aim of the invention is the implementation of continuous monitoring of the thermal state of the frontal parts of the stator winding.

FIG. 1 is a schematic diagram of a transmitter device containing a temperature sensitive measuring element; in fig. 2 - receiving recording equipment.

The power source of the device (Fig. 1) is a power winding 1, made in the form of a multi-turn winding wound on a flat tape that covers the stator winding rod in the frontal part near the soldering point. Zener diode 4 is connected to winding 1 through diode 2 and resistance 3. Thermostatic element 5 is connected to Zener diode 4, which is a bridge of supporting resistors 6 and thermal resistance 7. LEDs 9–11 are connected through diode 8 to the bridge, in series with each of which, respectively, level limiters are connected, which, for example, can be made in the form of thyristors 12-14.

The transmitting device (Fig. Placed entirely on the surface of the insulation of the rod of the frontal part near the soldering point, while the thermal resistances 7 of the sensitive element 5 are glued to the insulation and have its temperature, and all other elements of this circuit are structurally placed in a box-case glued , to the protective box, which is usually enclosed soldering rods.

The recording equipment is located opposite the frontal part at a distance from it in the receiving case-box attached, for example, to the corners that serve as the basis for the protective metal coating. The basic circuit of the recording equipment (Fig. 2) includes ) photodiode 15, to which the amplifier 16 is connected, to the output of which the indicating LED 17 is turned on. 2 is the same as photodiode type 9-11. The circuit of FIG. 1, for example, is designed for three channels. Indicating the LEDs 17 in the number equal to the number of channels placed on the light display.

The device works as follows.

When current flows through the stator winding at the output of the Zener diode 4, a series of half-wave pulses of a given magnitude (defined by the Zener diode 4) occurs. This voltage is applied to a temperature-sensitive measuring element (bridge) 5, the voltage at the output of which is proportional to the deviation of the insulation temperature of the rod from some base value. Level limiters, made, for example, in the form of thyristors

0 12-14, each tuned to a certain threshold turn-on voltage. Upon reaching a certain threshold, the level limiter opens this circuit, current passes through it and activates the corresponding emitting diode 9-11, transmitting the optical signal to the photodiode 15 of the corresponding recording device (Fig. 2). To ensure selectivity, LEDs 9-11 are geometrically

0 are spaced apart by the angle of the radiation pattern, i.e. rotated relative to each other at some angles. Indicating LEDs 17 are placed in the light panel. For the convenience of visual registration

5 they have a different color. For example, in the design of FIG. 1 they have (three channels) green, yellow and red colors. On the basket of the frontal parts of the stator winding of the generator, there can be several transmitting devices made according to FIG. 1. Their number is determined by the number of rods in the frontal part covered by thermal diagnostics. On the light panel, LEDs 5 indicating odes 17 are arranged in columns according to a color attribute (green — under green, yellow — under yellow, etc.). Thus, the light board is a color matrix whose columns speak

0 on the temperature level of the insulation of the rods of the frontal parts, and the lines on the location of their location in the basket. Such a presentation of information makes it possible to immediately visually assess the thermal state of the frontal parts by the predominance of one or another color. For a more accurate estimate, control color fields of the light panel are offered, for example, gradations. Good, Satisfactory, Bad,

0 Not allowed.

Thus, the device for thermal diagnostics allows continuous thermal monitoring and diagnostics of the state of the frontal parts of the stator winding of the generator, which are under voltage, since the signal transmissions are carried out optically at the desired distance, and present it in a convenient way. diagnostic assessment of visual form.

Claims (1)

Invention Formula A device for thermal diagnostics of the frontal parts of the stator winding of the generator, comprising temperature-sensitive measuring elements and recording equipment, characterized in that. what. In order to continuously monitor the thermal state of the frontal parts of the stator winding, at least one of the rods of the frontal parts of the stator winding is placed an additional supply winding connected to the inlet thermostat a measuring element made according to a bridge circuit containing thermal resistances, the output of which through a diode and signal level limiters is connected to the LEDs, the temperature sensitive element and the LEDs with level limiters placed on the frontal part of the stator winding, and the recording equipment is made in the form of photodiodes opposite the mentioned LEDs and connected through amplifiers with indicating LEDs combined in a light board. FIG. 2