SU503337A1 - Method for reducing rotor vibration of a pole-mounted electric machine - Google Patents

Description

In the known methods of reducing the vibrations of rotors of electric motors in a pole, they carry out reconstructive and assembly measures: moving the poles, centering the rotor relative to the stator, moving the stator elements, turning off part of the turns of the field winding. The disadvantages of such systems are large labor costs, significant equipment downtime and undersupply of electricity to the consumer. The proposed method of reducing rotor vibration by electromagnetic field balancing created by the excitation winding allows to simplify the balancing technology. This is achieved by introducing the electric machine into the operating mode under a load corresponding to the maximum vibration, by comparing the amplitude around the circumference of the rotor shaft with the direction of the maximum vibration and measuring the amplitude and phase of the vibration in this direction. Next, the unit is stopped, the test number of turns on any of the rotor poles is removed, the unit is started up again and vibration parameters are measured again in the original direction, after which the unit is stopped, the number of turns removed is calculated based on the measurement results and turned off. During the first start-up, the unit is brought to a load corresponding to the maximum vibration, usually to nominal. By comparison, the direction with the greatest vibration is found around the circumference of the rotor and the vector of initial vibration Lo is determined in this direction — the absolute value of the Lohl amplitude and its phase pho measured by the stroboscopic method. Then, the unit is stopped and test correction of the electromagnetic field is performed by turning off the turns with the Zn vector, i.e., the Zn turns located around the circumference of the rotor at an angle φp to the origin, from the work at any of the poles of the rotor; the latter is chosen at the pole in the region of the maximum gender. When the unit is restarted in a mode similar to the first one, the vibration vector AI is determined by measuring the amplitude AI and the phase of the shaft in the original direction. Next, the aggregate is stopped and, on the basis of the complex dynamic coefficient of its influence, calculated on one revolution, the vector r p of the number of turns and their phase position is determined by the formulas

where Zy is the result value vector

turn off coils; 2n is the vector of trial switchable turns;

L o, L are the vectors of the initial vibration of the rotor and of the vibration after turning off the 2n VITKOV, respectively.

Claims (1)

Invention Formula A method for reducing the vibration of a rotor of a pole-mounted electric machine, for example, a hydrogenerator, by turning off part of the winding coils, characterized in that, in order to simplify the technology, the electric machine is put into operation under a load corresponding to the maximum vibration, which by comparison of amplitude is the circumference of the rotor shaft with a direction with maximum vibration, in which the amplitude and phase are measured, after which the unit is stopped and the trial number of turns on any of the the rotor poles, re-enter the machine in the same mode of operation, measure the specified vibration parameters in the same direction, determine the required number of turns off and their location around the rotor circumference, after which the machine stops and turns off the specified number of turns, and turns and their location is determined by the formulas - 0 Ai-Ag Z p -; a - - -, aZn where 2p is the vector of resulting values turn off coils; Zn - the vector of test switches off vit Lo, AI - rotor initial vibration and vibration vectors after turning off Zn WHIPS, respectively.