SU632041A1 - Electric motor with rolling rotor - Google Patents

Description

The invention relates to the field of special electric machines and is intended for electric motors with a rolling rotor operating from a single-phase network. A motor with a rolling rotor is known, comprising a stator with a winding divided into four equal zones l. The known electric motor has a complicated control circuit and low energy indices. The closest technical solution to this invention is a motor with a rolling rotor containing a stator with a winding divided into four equal zones and connected to a single-phase voltage source through a separating diode and phase-shifting capacitor 2J. However, this electric motor also has low energy indices. In the proposed electric motor with a rolling rotor to increase the energy indices, the stator winding is made in the form of two parallel branches, each of which is formed by series-opposite connected two windings of adjacent zones . The drawing shows a stator sweep of an electric motor with a winding connected to a single-phase voltage source through separation diodes and a phase-shifting capacitor. The motor winding consists of four zones, representing the same groups of consecutively connected coils with the same number of turns Mzf located on each tooth of the stator. Zones follow the stator bore in the order of 1-2-3-4, not overlapping each other. Zones 1 and 3 are fed through diodes D1 and D2, and zones 2 and 4 through diodes DZ and D4. The ends of the windings of all zones are connected to a common point. Adjacent zones 1, 4 and 2, 3 are connected in series — opposite and form two parallel branches, which are connected to a single-phase voltage source U. The phase-shifting capacitor C is loaded parallel to the windings of two zones placed on diametrically opposite parts of the stator. Key K serves

to switch the capacitor from one winding to another, thereby achieving motor reversal.

The described electric motor operates as follows. D1 and D2 diodes are open to the positive semi-periol and the current flows through zones 1 and 4. However, since zone 1 is shunted by a capacitor of a certain capacitance C, the current in this zone is lagging behind the current in zone 4 by 90 °. Thus, the maximum current occurs first in zone 4, and then in zone 1. In the negative half-period, the diodes DZ, D2 are open, and the current flows through zones 2, 3, Since. zone 3 is shunted by capacitor C, then the current in this zone is relative to the current in zone 2 by 90 °. Consequently, the current maximum occurs first in zone 2, and then in zone 3. Thus, we obtain the alternation of current maxima by zones: 4 - 1 - 2 - 3. In the same sequence, maxima of the attraction force of the rotor to the stator occur and force rotor in the direction of alternation 4-1-2-3.

When switching the capacitor C with key K to the lower terminal, the alternation of MAXIMUM currents in the zones changes: in the positive half-period 1-4, in the negative 3-2, i.e. a sequence of 1–4–3–2 occurs, and the rotor begins to run in opposite direction — reverse occurs. When the capacitor is switched off, the zones are simultaneously under current.

1, 4 or 2, 3, and the engine is running in brake mode.

The described motor is characterized by lower losses and greater efficiency than the well-known 2, and the switch-on circuit can also be used to power the four-phase jet stepping motors of the usual version from a single-phase network.

Formula

the invention

An electric motor with a rolling rotor, containing a stator with a winding divided into four equal zones and connected to a single-phase source of voltage via separation diodes, and a phase-shifting capacitor, characterized in that, in order to increase energy performance, the stator winding is made in the form of two parallel each branch of which is formed in series - oppositely connected by two windings of adjacent zones, and the switching capacitor is connected in parallel to the windings of two zones placed on diametrically otivopolozhnyh stator sections.

Sources of information taken into account in the examination:

1. USSR Author's Certificate No. 329643, H 02 R 7/62, 1972.

2. Bertinov A.I., Varley V.V. Electric cars with roll 1969, p. 38,

torus M., Energy fig. 1-21.