RU2029983C1 - Electromechanic converter for time-pieces - Google Patents

Abstract

FIELD: electric time-pieces. SUBSTANCE: electromechanic converter has laminated magnetic circuits 1 and 2, axially magnetized ring magnets adjacent to their end-faces, hollow cylindrical projection formed on the end-face of magnetic circuit 1 and adapted for placing bearings 16 and 17, rotor 20 mounted in the bearings. Rotor 20 has a side surface onto which markings 26 are applied so as to provide reading-out indications of a counter. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to instrumentation and can be used in technical devices of time, mainly step modules for multi-digit operating hours counters and similar devices.

 Known electromechanical converter for technical time devices, containing two plate magnetic circuits bearing gear poles, and a control winding concentrated in the coil. A rotor made of magnetically conductive material is rotatably mounted on the shaft. A control winding and a magnet surrounding the winding are mounted on one of the magnetic circuits having axially elongated poles toward the rotor. On the last one another magnetic circuit with poles forming an external radial clearance with the poles of the rotor is installed. In this case, the poles of one magnetic circuit alternate in a circle with the poles of another magnetic circuit.

 The aim of the invention is the expansion of operational capabilities and downsizing.

 Figure 1 shows the Converter, a view in plan; figure 2 is the same, a view in section and side view.

 The converter contains plate magnetic circuits 1 and 2 adjacent to the ends of the axial magnetized ring magnets 3-6. The magnetic circuit 1 has teeth - poles 7-10, and the magnetic circuit 2 - teeth, respectively, poles 11-14. Bearings 16 and 17 are installed in the hollow cylindrical protrusion 15, made at the end of the magnetic circuit 1, the outer rings of which are fixed, for example, by a sleeve 18 mounted on the side opposite to the protrusion 15. In the bearings on the axis 19, a rotor 20 of magnetically conductive material with a cylindrical protrusion 21 and teeth 22-25. On the lateral surface of the teeth of the rotor is marked 26. It is possible to strengthen on the teeth of a special drum (not shown) for drawing the numbers of marking. In this case, the protrusion 15 of the magnetic circuit 1 forms an internal radial clearance with a hollow cylindrical protrusion 21 of the rotor 20. For orientation of the magnetic circuits, for example, columns 27, 28 are used, which are fastened in any known manner, and for fastening are screws 29, 30, screwed, for example, in shortened columns. The control coil 31 is attached in any known manner. The axis is held, for example, by nut 32.

 On the magnetic circuit 1 with the poles 7-10 axially elongated towards the rotor 20, the winding 31 and the magnets 3-6 surrounding it are installed. The poles 11-14 of the magnetic circuit 2, mounted on magnets 3-6, form an external radial clearance with the poles of the rotor 20. In this case, the poles 7-10 of the magnetic circuit 1 alternate in a circle with the poles 11-14 of the magnetic circuits 1 and 2. In addition, the poles of the magnetic circuits 1 and 2 alternate in the radial direction and the poles 7-10 of the magnetic circuit 1 form an internal radial clearance with the rotor 20. Magnetic cores 1,2 are made in the form of squares with rounded vertices, between which magnets 3-6 are mounted, made in the form of concentric non-magnetic columns 27, 28 rings.

Claims (1)

 ELECTROMECHANICAL CONVERTER FOR TECHNICAL INSTRUMENTS OF TIME, containing two plate magnetic circuits carrying gear poles and a control winding concentrated in a coil, a rotor of magnetically conductive material mounted on a shaft rotatably, on one of the magnetic circuits having a pole axially elongated towards the control rotor and mounted the magnet surrounding the winding, another magnet core is installed on the magnet with poles forming an external radial clearance with the poles of the rotor, and the poles the bottom of the magnetic circuit alternate in a circle with the poles of another magnetic circuit, characterized in that, in order to expand operational capabilities and reduce dimensions, the poles of different magnetic circuits alternate in the radial direction and the poles of the first magnetic circuit form an internal radial clearance with the rotor, a magnet used to fix the rotor is installed between the ends of the rounded vertices of the squares, in the shape of which the magnetic cores are made, and made in the form of concentric non-magnetic column rings, bearing a winding m The agitating conductor is made with an axial cylindrical hollow protrusion, inside of which there is a pair of bearings, the outer rings of which are fixed with a sleeve mounted on the side opposite to the protrusion, said protrusion of the magnetic circuit forming an internal radial clearance with a hollow cylindrical protrusion of the rotor.

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