SU117302A1 - Controlled reversible two-phase asynchronous micromotor - Google Patents

Description

The measuring systems use controlled reversible two-phase asynchronous micromotors with split poles: a controlled phase and concentrated windings at the poles of the controlled and uncontrolled phases. . . The proposed micromotor is more perfect as it requires less control power. This is achieved by the fact that the split poles have windows, on the jumpers between which the control windings of the constant current and short-circuit turns are located. FIG. I and 2 depict the scheme of the proposed micromotor. The micromotor is a reverse two-phase asynchronous motor with a short-circuited rotor and concentrating windings f 2 of the stator, located on split poles; 3 h4. .-. , V,. The poles of the uncontrollable phase are no different from the usual ones of an unpowered electric machine. Poles 4 controlled phase: the remains of two inserts 5, made of; material with a high magnetic permeability (for example, from permallo, in which r holes are provided for control windings - (, wrapping (wired by a singing cable ... depending controllable phase, which achieves speed control and change of direction of rotation of the motors. To reduce shunt of the variable flow and reduce coupling coefficient 1G302.- 2.

Since in the proposed engine the flow path of the magnetizations is quite small, and the place for locating the bias winding is relatively large, it is possible to obtain large enough moments to rotate the rotor canopies at very low bias magnitudes.

In order to use the proposed micromotor as a highly sensitive relay, its cleaved poles should be made of a magnetically soft material having a rectangular hysteresis loop.,

In the proposed micromotor, in one of the parts of each split pole, instead of the control winding 6, a rotary constant magnet 8 can be installed, connected through the gearbox 9 to the rotor shaft. In this case, the motor can align the magnetic constrictions generated by the control winding 6, through which the measured current passes, and the reference permanent magnet 8. If there is no specified correspondence between the magnetic fluxes of the control winding 5 and the permanent magnet 8 A motor flux produces a magnetic flux, causing the rotor to rotate in the direction that eliminates the error.

Subject invention

Claims (4)

1. A controlled reversible two-phase asynchronous micromotor with split poles of the controlled phase and concentrated windings on the poles of the controlled and unmanaged phases, which is different from the fact that, in order to reduce the power of the control, the split poles have windows jumpers between which are located the control windings of direct current and short-circuited coils. 2. The micromotor according to claim 1, characterized in that, in order to further reduce the required control power, splash; The molded poles are made of a material with high magnetic permeability. 3. The motor according to claim 1, characterized in that, in order to use it as a highly sensitive relay, the split poles are made of a magnetically soft material having a rectangular hysteresis loop. 4. Change the micromotor in PP. 1-3, characterized by T (that, in one of the parts of each of the split poles, a rotary permanent magnet is installed instead of the control winding, a mechanical H114 (ski connected to the shaft of the core).