SU723728A1 - Reversible synchronous electric motor - Google Patents

Description

one

The invention relates to electric machines, namely synchronous permanent-magnet electric motors.

Two-speed synchronous electric motors are known, containing a stator with a pole-switchable winding and a rotor with two permanent magnets with different numbers of poles 1.

Their disadvantage is the poor use of the rotor volume, since during its operation the moment is created only by one magnet, as well as the presence of a large braking moment.

Also known are reversible synchronous electric motors containing a stator with a multiphase winding, a rotor with a starting device and axially arranged permanent magnets, some of which have pins fixed in the arc slots of the other magnets and installed with the possibility of reciprocal rotation 2.

Such electric motors are the closest in technical essence to that proposed.

The disadvantage is their small functionality, since

they can only operate at a single rotational speed.

The aim of the invention is to extend the functionality of the motor.

This is achieved by the fact that in the proposed electric motor the winding is pole-switched, the number of pole pairs equals an odd number and is determined by the ratio 1/3 n, where n is an odd number, the number of permanent magnets is equal to the largest number of winding pole pairs, and the length of the arc of the slot corresponds to the central 180 (1 - p-) °. where p is the largest number of pairs of winding poles.

FIG. 1 shows the proposed electric motor with a rotor (for p 3) with the position of the magnets corresponding to the lower polarity of the winding; in fig. 2 - the same with the position of the magnets corresponding to a greater pole power.

The rotor of a synchronous motor contains a shaft 1 on which a permanent magnet 2 is fixedly mounted, and permanent magnets 3 and 4 can be rotated relative to the shaft. Permanent magnet 4 is rigidly connected to the starting device 5 in the form of a short-circuited magnetic circuit. When the bipolar stator field is rotated clockwise, the magnets 2, 3, 4 occupy a position in which their axes are parallel, (Fig. 1). The driving forces are perceived with the help of the plugs 6 and 7, welded to the magnets 2 and 3 and entering the slots on the magnets 3 and 4.

When changing the direction of rotation of the stator winding field (changing the direction of rotation is accompanied by changing the number of poles of the stator winding from 2 to 6), the working position of the permanent magnets corresponds to FIG. 2. The pins 6 and 7, welded to the magnets 2 and 3, change their position in the slots of the magnets 3 and 4. These slots are made along an arc of a circle that rotates the magnet 3 relative to the magnet 2 by 120 ° and rotates the magnet 4 relative to the magnet 3 also by 120 ° (120 ° 180 ° X (1, where 3 is the greatest number of pole pairs of the stator winding).

Thus, when the stator rotates clockwise (Fig. 1), the magnets 2, 3, 4 form a bipolar system, and when the stator field is rotated counterclockwise (Fig. 2), the indicated magnets form a six-pole system.

The proposed electric motor can operate at different rotational frequencies, which enhances its functionality when used in automation systems in which the reversal is accompanied by a change in the rotational speed (for example, in magnetic recording devices).

Claims (2)

1. USSR author's certificate No. 201522, cl. H 02 K 21/00, 1956. 2. USSR author's certificate number 400956, cl. H 02 K 21/00, 1973. Phage / PllS.2