SU64967A1 - Unipol rna machine - Google Patents

Description

The unequal distribution of the magnetic flux in the air gaps of unipolar machines with ring poles and a cylindrical rotor causes equalizing currents in the rotor, which worsens the machine efficiency. Until recently, the fight against this phenomenon was conducted by increasing the number of axial magnetic conductors between the individual cat poles. In some constructions, the number of the magnetic core reaches ten. However, this measure makes access to the brushes very difficult, especially at the bottom of the machine. The present invention allows such machines to reduce the number of axial magnetic cores and up to two (per pair of poles), provided that they provide the same magnetic induction throughout the interstitial space, and access to the brushes is completely free and, moreover, the cooling conditions of the machine are improved.

The essence of the invention is that the poles of the machine are supplied with axial openings, or connected to the magnetic cores at several points by means of branches from the magnetic conductors, or the size of the interstitial space is not equal to the circumference of the pole. Such techniques for changing the distribution of magnetic induction in the interstitial space are generally known for electrical machines, but have not been used in unipolar machines for the special purpose of ensuring the same induction throughout the interstitial space of the ring pole.

The foregoing is invented) and is illustrated in the drawing, in which FIG. 1 and 2 depict in two projections (with a section) two variants of one of the possible structures of the proposed machine, and FIG. 3 and 4 are two other options.

FIG. Figures 1 and 2 of the drawing show a bipolar pattern, however, the invention can also be applied to machines with any number of poles. Here, there are: 1-ring poles, 2-longitudinal (axial) magnetic circuits, 3-rotor, 4-air gaps, 5 - magnetic necks, 6-distribution magnetic circuits, 7 - air gaps between the distribution magnetic circuits and the ring poles. The distribution cores may be closed as shown on the left side of FIG. 1, and open, as shown cnpaiBa. In the described constructions, maglitic necks of the 5 are formed with the help of magnetic cores of 6 series of branches from magnetic conductor. 2; These branches connect the poles 1 to the magnetic cores at several points.

The drawing shows the power supply to the ring of six points, but there may be another number of these points. The magnetic resistance is calculated in such a way that the same magnetic flux passes through all the power points.

For the same purpose, the technique shown in FIG. 3; in the car of FIG. 3, the uniform distribution of the magnetic flux is achieved by a special shape of the annular pole 1, which has an immense thickness in the middle, which makes BHeiiiHee resemble an ellipse, and also drill a number of holes 8 in it where it is necessary to increase the magnetic resistance.

With annular poles 1 of almost the same thickness, the same effect is achieved by using an air gap of unequal magnitude (Fig. 4); under the longitudinal magnetic fields, it is made somewhat larger than in the perpendicular direction, i.e. the boring of the annular poles is made approximately elliptical or from two centers.

Preferential Invention

A unipolar machine with a cylindrical rotor and ring poles connected by magnetic conductors, characterized in that, in order to ensure the same magnetic induction throughout the inter-iron space with a minimum number of magnetic conductors (to provide easy access to the current collector), the poles are provided with axial holes, or connected to the magnetic cores at several points with the help of branches from the magnetic cores, or the size of the interglacial space of the polyurea. not the same around Nost pole.

f.1G. one

 g

JFig. 2 / L.