SU815709A1 - Electric motor for time-pieces - Google Patents

Description

(54) ELECTRIC MOTOR FOR HOURS

The invention relates to electric clocks, in particular, to converters of oscillatory motion of an oscillator into a rotational motion of a wheel transmission, and can be used in software devices and in tape mechanisms.

A motor is known that contains a stator consisting of an elastic shell with magnetic systems attached to it at four points by magnetic systems covering the coil units that are connected to the electronic unit, and a rotor mounted on a constant magnet coaxial to the stator. Permanent magnet multipole, radial magnetization Transformation of the vibrations of the elastic shell is provided by the interaction of the fields of the four magnet systems and the rotor C. However, the device has a large angular pitch of the engine and a significant dissipation field can therefore not be obtained a high value of the coefficient of useful action.

The purpose of the invention is to increase the efficiency (by reducing the scattering fields and the step).

This goal is achieved by the fact that the rotor and the stator each have two magnetic cores, the stator magnetic cores are placed on opposite sides of the coil unit and provided with windows for accommodating magnetic systems and teeth, and the rotor magnetic cores are placed along the riders of the permanent magnet and provided with teeth.

0, the permanent magnet is magnetized in the axial direction, and the stator and rotor teeth are located in the same plane.

FIG. 1 and 2 are presented

5 constructive scheme of the electric motor.

The stator contains an oscillator - an elastic shell of a cylindrical form 1, fixed on the base 2.

0 Four magnetic systems 3, containing magnetic cores 4 and permanent magnets 5, are symmetrically fixed on the oscillator. There is also a block of coils 6, on both sides of which magnetic cores 7 are placed. These magnetic cores have windows 8 and teeth 9. The rotor contains a permanent magnet 10, magnetized in the axial direction, and two magnetic cores

0 11 with teeth 12. Number

The teeth on the stator and rotor magnetic cores are the same. In addition, each pair of magnetic conductors is offset by half the angular pitch. Thus, the magnetic poles in the dentate zone of the rotor alternate. The current in the katzpiek unit is controlled by the electronic circuit 13. It should be noted that the number of coils is determined by the electronic circuit.

The operation of the electric motor is as follows.

When power is connected to the electronic unit 13, the self-oscillating movement of the shell 1 is provided due to the magnetic interaction of the floor of the systems 3 with the field of the coil block 6. At the same time, the screening of the coil block floor is eliminated by the presence of windows 8. The oscillation amplitude of the shell is small, the release pulses will be almost sinusoidal form. A similar form or meander (determined by the parameters of the electronic unit) will have a drive current. In accordance with the drive current, each stator magnetic core once during the oscillation period of the shell will change the magnetic pole, therefore, in the tooth-like zone of the stator during one half period there will be one alternation of magnetic poles, during the Other, the opposite. The symmetry of the design of the tooth zones provides an indifferent direction of rotation of the rotor. Therefore, initially the rotor should receive an external push in the desired direction. After that, the device will operate as a stepping motor.

Claims (1)

Invention Formula An electric motor for a clock comprising a stator consisting of an elastic shell with magnetic systems fixed to it symmetrically at four points covering the coil unit connected to the electronic unit and a rotor with a permanent magnet located coaxially with the stator, characterized in that In order to increase the efficiency, the rotor and the stator each have two magnetic conductors, the stator magnetic cores are placed on opposite sides of the coil block and provided with windows and teeth, and the rotor magnetic cores are placed along The ends of the permanent magnet and are provided with teeth, while the permanent magnet is magnetized in the axial direction, and the statszra and rotor teeth are located in the same plane. Sources of information taken into account in the examination 1. Swiss patent 453224, cl. 83 in 7/00 (prototype).