SU716120A1 - Linear induction motor inductor - Google Patents

Description

The invention relates to electric machines and can be used in linear induction machines.

A linear induction machine inductor is known, containing a heart, nickname, in the slots of which a three-phase winding is placed, consisting of a bipolar compensating and working parts, with the pole division of the compensating winding part being larger than the working 1J.

Both parts of the winding are plugged in; network, consistently and create traveling waves of current loads, between which there is no phase shift.

The absence of a phase shift between the waves of the primary currents and an increased pole dedination of the compensation winding compared to the working one leads to a deterioration in the energy performance of the compensated machine as compared to the uncompensated one.

A linear induction motor inductor is known, on which a three-phase winding is placed, consisting of series-connected compensation and working parts 2, by changing the alternation of the sides

The coil groups in the compensation part of the winding are created with an iTO phase movement between the running waves of the current loads of both parts of the winding. However, in this inductor the compensation winding has a greater pole division than the working one, which reduces its efficiency.

A linear inductor is also known.

0 induction machine, on the core of which is laid a three-phase single-layer winding with d number of slots per pole. and phase, a between the running waves of current loads of neighboring

5 pairs of poles there is no phase shift 3.

This inductor is closest to the invention in terms of its technical nature and the result achieved.

0

The disadvantage of this device is the relatively low energy performance.

The purpose of the invention is to determine the energy performance of the engine.

5 by creating in it additional electromagnetic fields arising during the phase shift of the current load waves of neighboring pairs of poles.

0

This is achieved by the fact that for each subsequent pair of poles the alternation of the active sides of the coils 1 is carried out with transfer n of the sides of the coils to from the end to the beginning compared to the previous pair of poles while maintaining the same sequence of alternating coils of the other sides.

where p d, and n is an integer.

The drawing shows a diagram of a three-phase winding of the described inductor of a linear induction motor,; . consisting of three successively double bipolar sections with the number of grooves per pole and phase g 1 and creating a phase shift between current loads of adjacent sections f 60 ° (n 1),

In this case, for each subsequent pair of poles of a pole pair, the alternation of active sides of the coils is carried out with the transfer of one side of the coil from the end: the beginning, i.e. The following sequence of alternating sides of the coils is carried out. A, Y, B, X, C, H, H, A, 2, B, X, C, C, Y, A, g, B, X, Pri, the alternation of the sides of the coils for the first pole will be

And Z, Zg Zz in, x GJ,

for the second pole

Y2UZ A, jZ Z2 2z B Bg B X X X C C C Y

for the third pole

CjY,, 2,,, Z, B, B, X, /

etc. -,,, . ;

The positive effect is an increase in overall power; wigatel and a slight increase in power factor.

Claims (3)

1. Transactions of Power Apparatus and System 1972. 2, USSR Author's Certificate No. 547932, cl. H 02 K 41/04, 1975. 3. Voldek, IA, Induction magnetohydrodynamic machines with liquid metal working medium. M., Energy, 1970.