SU79620A1 - The method of rewinding induction motors when translating them to a higher rated speed - Google Patents

Description

Usually when translating an asynchronous machine to a large nominal. This speed increases the power factor by decreasing the voltage per turn.

Known methods for reducing the voltage per turn, achieved by simply switching the winding from a triangle to a star with a series connection of coils or by reconnecting a partitioned stator winding from a double star to a series triangle, a triangle star and a series star, have several disadvantages, the main ones reduction of allowable load and overload capacity, as well as deterioration of starting conditions.

The proposed method eliminates these disadvantages. A distinctive feature of this method is that the stator winding is rewound to a smaller number of poles using existing ones, its copper cross sections so that the voltage reduction per turn is not accompanied by a change in shaft power. In this case, the coefficient

the power of the machine is increased by induction of IB to the gland and by increasing the proportion of active materials, the arrival of the speed per kilowatt of power.

The ratio of the turns of the stator winding of an electric motor after rewinding to a greater number of revolutions per minute while maintaining power on the shaft to the number of turns of the machine before rewinding is determined as follows. Forward formyu:

Ii7, f: Kw, W, | / 7G Kw.

Where:

Wi K Wi II w, is respectively the number of turns, the winding coefficient of the stator winding and the angular velocity of the rotor of the electric motor before rewinding.

W, K Wz and W, - the number of turns, the winding coefficient of the stator winding and the angular speed of the same motor after rewinding while maintaining power on the shaft.

The magnitude of a decrease in stress on the turn is determined by the expression w

life: a - HOiBbiH coL / HWi

463 cos® power phantom for motor rammer will be: 1 1 cos -I l + angcp2 and -new voltage per turn, UH-rated voltage per turn, o-phase shift at actual load, ®-phase shift at the same load , but after rewinding the electric motor while maintaining power on the shaft. Example. When rewinding electric motors of deep pumps from 730 to 980 rpm, cos increases to 0.662 compared to, cos f 0.55 before rewinding. Thus, MiecTO has a growth of cos 9 by 0.112. In normal rewinding (while maintaining the moment on the shaft) cos to increases only by 0.01-0.02. 1 + (According to the proposed method of rewinding asynchronous electric motors from 730 rpm to 980 rpm, copper consumption per turn will increase due to the elongation of the frontal winding parts by 12%, and the number of windings / 980 windings will decrease by 1 /, iQ times, therefore (taking into account a small change in the winding ratio), the cost of winding copper can be considered unchanged. Object of the invention A method for rewinding induction motors when translating them into pain, the nominal speed, which is characterized by the fact that in order to increase the power factor of the machine by reducing In the iron, the stator winding is rewound to a smaller number of poles using the existing cross-section of copper so that the voltage drop per turn is not accompanied by a change in power on the shaft.