RU2016475C1 - Inductor-reactive stepping electric motor for time indication - Google Patents

Abstract

FIELD: technical time instruments. SUBSTANCE: monolithic magnetic circuit 2 with cylindrical rod-core 3 embraced with winding 7 and having lugs 4 and magnet 5 with pieces 6 is installed on flanges 1 of body. Hollow serrated rotor 10 is mounted in space of nonmagnetic cylindrical indicator 11. When pulse of definite polarity comes into winding 7 rotor passes from one position to another. EFFECT: simplified design, improved reliability. 18 dwg

Description

 The invention relates to electrical engineering and can be used in technical devices of time.

 Known induction-reactive stepping motor for indicating time, containing a stator, including a cylindrical body, on which is mounted a monolithic magnetic circuit with a cylindrical core rod having pole tips and covered by a cylindrical control winding, and a magnet with a tip and a monolithic passive rotor.

 The aim of the invention is the expansion of the structural and technological capabilities of creating unified step modules for fulfilling the familiarity of digital watches with increased ergonomics and economy.

 To achieve this goal in an induction-reactive stepper motor for indicating time, the ring magnet is magnetized to form equipotential surfaces of opposite sign coaxial to each other and mounted on the side surface of the hollow cylinder-rod-core-tip with a radial clearance relative to the inner surface of the non-magnetic cylindrical cavity indicator of a hollow cylindrical rotor.

 In FIG. 1 shows a device in section; figure 2 is a view along arrow B in figure 1; figure 3 is a top view of figure 1; figure 4 is a bottom view of figure 1; in FIG. 5-7 - housing flange; on Fig-10 - magnetic circuit; figure 11 is a rotor; in Fig.12 - the rotor in the indicator; Fig.13-15 - magnetic circuit with a winding; in Fig.16 - the first fixed position of the rotor; on Fig - the second fixed position of the rotor; on Fig is an image of seven-blenk familiarity.

 A monolithic magnetic core 2 with a cylindrical core rod 3 having tips 4 and a magnet 5, the tip 6 of which is a cylindrical protrusion from one of the tips of the hollow cylindrical core core 3, covered by a cylindrical control winding 7, is installed on the non-magnetic flanges 1 of the housing.

 The ring magnet 5 is magnetized radially with the formation of coaxial to each other equipotential surfaces of opposite sign and mounted on the side surface and the said protrusion 6.

 On the surface 8 of the monolithic magnetic circuit 2, inner rings of bearings 9 are installed, between the ends of the outer rings of which there is a hollow monolithic gear rotor 10, mounted in the cavity of a non-magnetic cylindrical indicator-blender 11 and forming a radial clearance with pole tips of the magnetic circuit. The magnetic core 2 is fixed on the flanges 1 with screws 12, passed through an opening in the bracket 13 and wrapped in a pin 14. For orientation, pins 15. For mounting from seven-blended familiar modules (see Fig. 18), holes 16 are provided in the bracket 13 ( fastening, for example, to the base or familiar body).

 Upon receipt of a pulse of a certain polarity in the winding 7, the rotor from the position in Fig.1, 16 goes to the position in Fig.17, where it remains until a pulse of the opposite polarity arrives.

Claims (1)

 Inductive reactive step-by-step electric motor for time indication, comprising a stator including a cylindrical body, on which a monolithic magnetic core with a cylindrical core core having pole tips and covered by a cylindrical control winding, a magnet with a tip and a monolithic gear rotor forming a radial pole behind it is formed magnetic circuit, characterized in that, in order to expand the structural and technological capabilities of creating a unified step module To fulfill the seven-blender familiarity of a digital watch with increased ergonomics and economy, the electric motor is made with an external rotor, which is mounted in the cavity of a non-magnetic cylindrical indicator, the magnetic circuit is equipped with a cylindrical protrusion located on the side of one of the pole tips of the control winding core and serves as a magnet tip, which is made ring magnetized radially with the formation of coaxial to each other equipotential surfaces of opposite sign and strengthen ene on the side surface of said protrusion.

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