SU1193753A1 - Rotary transformer - Google Patents

Abstract

ROTATING TRANSFORMER,. containing a magnetic core with grooves in which the conductors of a sinusoidally distributed winding are located, characterized in that, in order to improve accuracy, the number of conductors W. of the sinusoidally distributed winding in each slot of the magnetic core is determined by the j15inoi 3 extrusion (: ot; the groove, relative to an arbitrarily chosen reference point; the angle of the groove position with Ct f, the minimum absolute value of the sine, relative to the same reference point; the calculated value of the number of 3 n turns in the groove, oloj- (Ln at an angle otjt, TIE., taking into account rounding. el 00

Description

The invention relates to electrical machines of automatic systems and computing, in particular, to rotating transformers (BT). On the devil, the proposed device is presented on a hedgehog. The BT contains a magnetic circuit of a stator 1 and a magnetic circuit of a rotor 2 with quadrature windings located on them (not shown). The stator and rotor windings or the winding. One of these magnetic cores are sinusoidally distributed. Consider the performance of the VT on the example of a despolating machine (p 5)., In which the number of stator magnet grooves is twenty-three, in which two quadrature sinusoidally distributed windings are placed. On the magnetic core of the rotor 2 there are two quadrant-shaped, re-wound windings. The angular location of the grooves of the md.nitoprovod of the stator 1 is determined relative to the axis of the quadrature windings, 0-0 in the drawing, and given as the reference point. The groove located relative to the axis 0-0 by the minimum value of the sine is offset relative to this axis by the angle AC 1780236. The number of conductors BT located in any of the slots of the magnetic circuit of the stator 1 for the sinus winding is. fsinot where s.- the angular location of the corresponding groove, hail; oi. - the angular location of the groove with the minimum value of the squared axis relative to the axis 0-0; n - the calculated value of the number of turns of the winding in the groove located below. fli angle. The sinus winding data of the stator 1 magnetic circuit for the proposed example of performance of VT, in which 78 0236 and 7 are given in the table. The value is obtained and - by rounding to the nearest integer number. . The order of rounding the turns in the thirteenth and twenty-third slots is due to the requirement of equal numbers of positive and negative winding conductors. . As follows from the table, the maximum relative error of the sinusoidal distribution of the conductors of one of the quadrature windings on the magnetic core of the stator 1 in the considered example of performance of the proposed HT is 2.23%. The number of turns of the cosine winding of the stator magnetic circuit 1 is equal to nsin () Sin. In the example under consideration, two quadrature windings are located on the rotor 2, which consist of equal-turn sections. When performing pOTjopa 2 with the number of slots not multiple 1 3. 4 by four and placing sinusoidally distributed windings on it, the numbers of conductors in the grooves are set in accordance with the angular position relative to the axis of the field of each of the slots and the groove closest to the axis of the winding as shown for stator magnetic circuit I. BT works in the following way. An excitation voltage is applied to the field winding located on the magnetic core of the stator 1 (or on the rotor 2). Due to the high precision of the sinusoidal distribution in the slots of the pods of the excitation winding, the magnetizing force of this winding and proportional to the induction of the electromagnetic field in the air gap vary with high precision to the sinus law. As a result, the electromotive forces induced in the output quadrature rotor or stator windings change with high precision in proportion to the sine and cosine of the angle of rotation of the rotor 2.

Claims (1)

ROTATING TRANSFORMER,. containing a magnetic circuit with grooves in which the conductors of a sinusoidally distributed winding are located, characterized in that, in order to increase accuracy, the number of conductors W. of a sinusoidally distributed winding in each groove of the magnetic circuit is determined by the expression y - ⁿ⁵ ' ^nc6 i' Sin ¢ 4 ^. 'where is the angle of the i-th groove, relative to an arbitrarily chosen origin; - the angle of the location of the groove with the minimum absolute value of the sine, relative to the same reference point; η is the calculated value of the number of turns in the groove located at an angle ctfc, VZYA-. Toyo · taking into account rounding. 119375 1 iG93753