SU1615669A2 - Polarized electromechanical transducer for timepiece - Google Patents

Abstract

The invention relates to electronic clocks and can be used in polarized electromechanical converters for electric clocks. The purpose of the invention is to reduce the error of mining step while simplifying the design. When a current pulse is applied to the control winding 4 between the poles 5 of the magnetic core plate 7 and the teeth of the gear rotor 1, the magnetic fields generated by the permanent magnet 2 and the current pulse through the control winding 4 are added, and these magnetic fluxes are subtracted in the gap between the poles of the magnetic core 8. . The result is a torque that turns the gear rotor 1. The junction of a part of the cylindrical surface of the permanent magnet 2 with the poles of the plates 7 and 8 of the magnetic circuit increases the allowable saturation of the latter, which increases the accuracy of the step. 2 Il.

Description

The invention relates to an electric clock, namely to polarized electromechanical converters for electric clocks and is an improvement of the invention according to ed. St. No. 1277061.

The aim of the invention is to reduce the error of working out the step while simplifying the design of the polarized electromechanical converter for electric clocks.

Figure 1 shows the electromagnetic system of the Converter in the context; Fig * 2 is the same, a top view.

The polarized electromechanical converter contains a gear rotor 1, enclosing a permanent magnet 2, and a stator with a control winding 4 located on the core 3, forming a magnetic circuit, the opposite poles 5 and 6 of which are located in a plane perpendicular to the plane of the magnetic circuit. The magnetic core has the form of two plates 7 and 8 located in parallel planes, one of which is made integral with the core 3 of the control winding 4 having a T-shape, and the other is integral with the U-shaped core. In this case, the opposite stator poles 5 and 6 are formed in different plates 7 and 8, and the longitudinal axis of symmetry of the plates 7 and 8 are located in the same plane as the axis of rotation of the gear rotor: 1.

The permanent magnet 2 is made in the form of a stepped cylinder, magnetized in the axial direction, and is connected by a part of the cylindrical surface with the poles 5 and 6 of the plates 7 and 8 of the magnetic circuit. The opposite poles 5 and 6 in the plates 7 and 8 are separated by cutouts 10 and 11, and the teeth 12 and 13 of the gear rotor 1 are separated by interdental spaces 14 and 15. The poles 5 of the plate 8 are located in the cutouts 10 between the poles 6 of the plate 7, and the poles 6 of the plate 7 placed in the cutouts 11 of the plate 8 uniformly and symmetrically with respect to the axis of rotation of the gear rotor 1. In the embodiment, the opposite poles 5 and 6 occupy one third of the gear division of the gear rotor 1, cutouts 10 and 11 - two thirds of the gear division of the gear rotor 1, teeth 12 - two-thirds of the dentate division rotor I, teeth 13 - one third of the tooth division of the gear rotor 1, interdental spaces 14 - one third of the tooth division of the gear rotor 1, and interdental spaces 15 - two thirds of the tooth division of the gear rotor. 1.

Converter for electric clock works as follows.

When a current pulse is fed into the control winding 4, a magnetic field is formed, the lines of force of which are closed through the core 3 and the U-shaped core, plates 7 and 8, poles 5 and 6, the gap between the teeth 12 and 13 of the gear rotor 1 and the poles 5 and 6 * With a certain direction of the current in the gap between the poles 5 of the stator magnetic circuit and the teeth 12 and 13 of the gear rotor 1, the magnetic fluxes formed by the permanent magnet 2 and the current pulse through the control winding 4 are added, and in the gap between the poles 6 and the teeth 12 and 13 of the gear rotor 1 you happen Feeding of these magnetic fluxes. As a result of this, a torque arises that rotates the gear rotor 1 in the direction of greatest conductivity, which ensures that the step is worked out (in figure 2 clockwise) with an angular length of 517Z, where Z is the number of teeth of the gear rotor; 1. In the embodiment shown in FIGS. 1 and 2, the step is $ * / 4.

At the end of the current pulse, the gear rotor 1 remains in a new stable position, since its position fixed by a permanent magnet 2 (Fig. 2), with the specified geometric ratios, is due to the fact that the teeth 13 with an angular extension of a third of the tooth division of the gear rotor 1 are oriented against the poles one of the plates 7 and 8 with the same angular extent. When applying the next pulse of opposite polarity through the control winding 4, the process repeats.

Due to the coupling of a part of the cylindrical surface of the permanent magnetic electric clock.

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Claims (1)

Claim Polarized electromechanical converter for electric clock according to ed. St. No. 1277061, characterized in that, in order to reduce - '; · to reduce the error in working out the step while simplifying the design, the permanent magnet is connected with a part of the cylindrical surface with the poles of the plates of the magnetic circuit. 10 13 74 6 FIG. 2