SU1016543A1 - Device for measuring turbine rotor excentricity vector - Google Patents

Abstract

A DEVICE FOR MEASURING A VECTOR OF THE TURBINE ROTOR EXCENTRISITITY, containing two rotor position sensors mounted on mutually perpendicular axes of the latter and connected non-cutters to the measuring unit connected to a recording device and a signaling device, characterized in that, in order to improve the measurement, measuring devices have Enter the sensor of the mark, the drivers of the reference signal and phase marks, the active filter of the signal removal and the DC source into the device, and the measuring unit is completed in the form of vectors a transceiver with one moving and six fixed coils and an alternating current source, with the transducer outputs connected to the first and second fixed coils of the vector meter, a direct current source connected to the third and fourth fixed coils and to the moving coil, the AC source connected to the fifth and sixth stationary coils, the output of the driver of the reference signal and the input of the active filter is connected to the moving coil, the output is AK (the positive filter is connected to the recording device and the signal torus, a label sensor to Con ene input of the reference signal to the recording device and to the phase shaper labels connected to the recording device. O) SP N with

Description

This invention relates to a power system and can be used to control the state of a turbine.

There are known devices for measuring the eccentricity vector of a turbine rotor, containing patches installed on the rotor and connected via an amplifier and amplitude meters to the inputs of the adder, the output of which is connected to a recording device and a C 1 1 alarm device.

However, these devices do not accurately determine the maximum deviation of the rotor from the axis.

The closest in technical essence to the invention is a device for measuring the eccentricity vector of a turbine rotor, containing two rotor position sensors mounted on mutually perpendicular axes of the latter and connected via converters to a measuring unit connected to a recording device and a signaling device,

A disadvantage of the known device is to consider a slightly lower accuracy of measurement due to sensitivity to interference; it is not possible to measure the phase of the vector and the magnitude and phase of the harmonics of the vector.

The purpose of the invention is to increase the measurement accuracy.

To achieve this goal, a sensor sensor, a reference signal driver, are inserted into a device for measuring the turbine rotor eccentricity vector, which contains two rotor position sensors mounted on mutually perpendicular axes of the latter and connected via transducers to a measuring unit connected to a recording device and a signaling device. and phase marks, an active signal removal filter and a direct current source, and the measuring unit is designed as a vector meter with one moving and scant fixed coils and an alternating current source, the transducer outputs are connected to the first and second fixed coils of the vector meter, the direct current source is connected to the third and fourth fixed coils and to the moving coil, the alternating current source is connected to the fifth and second fixed coils, the output of the reference generator the signal and the input of the active filter are connected to the movable roller; the output of the active filter is connected to a recording device and a signaling device, and a tag sensor is connected to the input of the forms tel reference signal to the recording device and to the phase shaper labels connected to the recording device.

The drawing shows a functional diagram of the device.

The measuring unit 1 is made in the form of a vector meter with fixed coils 2, 3, 4, 5, 6 and 7 and a movable roller 8. On the case 9 of the support, two primary measuring sensors 11 and 12 are installed near the rotor 10 on mutually perpendicular axes. The rotor 10 is labeled 13. In addition, the device contains a sensor 14 tags, converters 15 and 16 and a source 17 of direct current, the driver 18 of the reference signal, the active filter 19 of the signal, the source 2O of alternating current, the driver 21 of the phase marks, a pervicTripping device 22 and a signaling device 23. The readings are read by a light pointer on the crank of the vector meter — measuring unit 1, which represents the polar coordinate system.

The device works as follows.

Before switching on the shaft rotation, the turbine rotor is located in the lower part of the sub-bore boring and the distance to the primary measuring sensors 11 and 12 is known from the geometry of the shaft and the sub-insert, by means of inserts into

5, the movable coils 4 and 5 and the movable coil 8 of the measuring unit 1 of a rechargeable current from the source 17 are set to a deviation corresponding to half the gap size at

The rotor is at the bottom of the bearing bore.

After the shaft rotation is turned on, the signals of the primary measuring sensors 11 TI 12 about the components of the position and vibro5 of the displacement of the rotor eccentricity vector go through the converters 15 and 16 to the fixed coils. 2 and 3 of the measuring unit 1, having their magnetic axes along the mutually perpendicular axes of rotation of the moving coil 8. A moving current from the source 17 is supplied to the moving coil 8 having two degrees of freedom to obtain a deviation on the scale of the measuring unit 1 proportional to the displacement vector rotor. The deviation of the vector meter's two-step measuring mechanism is proportional to the vector sum of the displacement and vibration displacement components,

Claims (1)

DEVICE FOR MEASURING A TURBINE ROTOR EXCENTRICITY VECTOR, containing two rotor position sensors mounted on mutually perpendicular axes of the latter and connected to the transducers to a measuring unit connected to a recording device and an alarm device, characterized in that, in order to increase the accuracy of measurement, the device a mark sensor, shapers of the reference signal and phase marks, an active signal pick-up filter and a direct current source are introduced, and the measuring unit is made in the form of a vector meter with one movable and six fixed coils and an alternating current source, the outputs of the converters being connected to the first and second fixed coils of the vector meter, a constant current source connected to the third and fourth fixed coils and a moving coil, an alternating current source connected to the fifth and sixth fixed coils, output the driver of the reference signal _e and the input of the active filter is connected to ® movable coil, the output of the active filter is connected to a recording device and a signaling device, and the sensor The IR marks are connected to the input of the reference signal former, to the recording instrument and to the phase marks former connected to the recording instrument. S and 1016543 101 654 $