DE2747644A1 - SINGLE PHASE MOTOR, IN PARTICULAR FOR WATCHES - Google Patents

Description

27476U

Quarz-Zeit AG 6D0G Frankfurt / Main

Graefstrasse 103

Single-phase stepper motor, in particular for clocks

The invention relates to a single phase stepper motor, in particular for clocks, with a rotor with a flat, multi-pole, disk-like rotor body which revolves in a first plane, and a stator, which from zuei via a carrying the excitation winding Bridge part connected to one another, arranged in a parallel to the first plane to the side plane stator parts consists of each of which at its free end in one equal to the number of rotor poles passes over a smaller number of pole faces directed against the rotor face.

Single-phase stepper motors of this type have already been proposed morden, in which the rotor body consists of a disc with pronounced Pole teeth made of a ujeichmagnetischen material. The single ones Pole teeth are divided into main and auxiliary poles. Between the finger-shaped Stator poles there is a permanent magnetic circuit, which defines the rest position of the rotor body when the stator is de-energized uiird. The dent of the rotor is in two on one side of the rotor body one behind the other stored bearings, one of the bearings protrudes into the space formed by the stator pole ends.

Another previously proposed single-phase stepper motor of In the genus in question, the rotor body consists of a disk-shaped, axially multi-pole magnetized permanent magnet. From the against the end face of the permanent magnet body directed pole faces of the stator at least one is divided into a main and an auxiliary pole.

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On the side of the permanent magnet body facing away from the stator pole faces there is a return disc which, according to a Embodiment secured against rotation relative to the permanent magnet body sits on the rotor shaft and according to another Embodiment is overhung on the rotor source. In this single-phase stepper motor, too, the rotor shaft runs in two bearings around, both of which are arranged one behind the other on one side of the rotor body on the housing or on a bracket. One the bearing protrudes into the space formed by the stator pole ends.

Both single-phase stepper motors have the disadvantage that the Storage of the rotor source leaves something to be desired with regard to the centricity of the rotor and stator. In addition, these single-phase stepper motors have a construction that is unfavorable to manufacture with regard to the blade bearing.

These disadvantages are intended to be eliminated by the invention. It is Therefore the object of the invention is to create a single-phase stepper motor of the type described at the outset, in which the rotor and stator are as possible are arranged exactly centric to each other and the lug bearing itself has a low-component structure that is inexpensive to manufacture.

This object uiird achieved according to the invention in that at least one of the pole faces is molded onto a bearing for the rotor shaft.

By this measure it is achieved that at least the bearing located in the stator plane is aligned exactly centrically to the stator parts. Since the other camp generally has a larger one The distance to the rotor body is arranged as the bearing lying in the stator plane, only an eccentricity of the other bearing has an effect to a small extent on the running of the engine and its ef-

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efficiency. Since that at the pole face bzu. Molded pole faces

Bearing in the same operation in which the stator part is punched out

is, can be produced, the production of the

single-phase stepper motor according to the invention compared to the aforementioned considerable.

In the case of a single-phase stepper motor with a permanent magnetic, axial magnetized rotor body and pole faces, at least one of which is divided into a main and an auxiliary pole and a return disc, which is arranged on the side of the rotor body facing away from the pole faces, it has proven to be expedient, the bearing to be molded onto the auxiliary pole part of the pole face. This brings the advantage with it that the course of the magnetic flux is particularly little is disturbed by the camp and thus the arrangement according to the invention of the bearing has no or only a negligible influence on the operating values of the motor.

According to a further concept of the invention, the structure of the LJellenlagerung be made further cheaper to manufacture that the Return disc in the aforementioned motor non-rotatable in the housing is set and provided in this a bearing for the rotor shaft is. This bearing can also be used in the same punching operation in which the back yoke disk is also produced. Through this there is no need for additional bearing components, which were previously always required.

The invention is based on the drawing, which is in part schematic Representation contains examples of implementation, explained in more detail. Show it

Figure 1 is a partially sectioned plan view of a single-phase stepper motor with a rotor with a soft magnetic rotor body,

FIG. 2 shows a section through the single-phase stepper motor according to FIG. 1 along the line II-II,

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Figure 3 is a plan view of a single-phase stepper motor

with a rotor with a permanent magnet rotor body and

FIG. K shows a section through the single-phase stepper motor according to FIG. 3 along the line IV-IV,

each in a significantly enlarged view.

The single-phase stepper motor according to FIGS. 1 and 2 consists of a 6-pole rotor 1 and a stator 2, which comprises two stator parts 3 and k as well as a bridge part 5 connecting these two with the excitation coil 6.

Each stator part 3 or k has two circular sector-shaped stator pole teeth 7 at its end adjacent to the rotor 1. A bearing eye Ba for the rotor shaft 9 is formed on one of the stator pole teeth 7. Another bearing bush Bb is located in a bearing block Bc.

The rotor 1 consists of six approximately rectangular main pals 10, each of which merges into a triangular auxiliary pole 12 at a radial boundary line 11. The narrow side of each main pole 10 is selected to be approximately equal to the width of a stator pole tooth 7 in the area of the main pole flux. The rotor sheet is directly on the Rotor shaft 9 pressed on.

Both the two stator parts 3 and k, which are arranged in a plane A, as well as the rotor 1, which revolves in a plane B parallel to the plane A, are punched out of sheet metal made of a soft magnetic material.

In the de-energized state, the rotor 1 is in a position as shown in FIG. In this position the magnetic

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Table resistance of the permanent magnetic circuit 13 is the smallest. A main pole 1G is then located above one of the two Permanent magnets 1i »bzu. 15, one of which with its north pole and the other with its south pole facing the respective main pole 10 is. The auxiliary poles 12 protrude into the stator pole areas. When the stator 2 is excited, the rotor 1 is converted into a Rotated position in which the main rotor poles 10 over the stator pole teeth come to rest. Now two auxiliary poles 12 protrude into the Area of the permanent magnetic circuit 13. As soon as the excitation of the stator has ended, the rotor 1 is driven by the auxiliary poles 12 in the position shown is turned further.

The single-phase stepper motor according to FIGS. 3 and 3 comprises a 6-pole rotor 1 'and a stator 2 ¹ , which consists of two stator parts 3 · and * ♦' as well as a bridge part 5 connecting these two with the excitation coil 6.

Each stator 3 ¹ bzu. ^ ¹ has zuei main poles 7 in the form of fingers tapering towards the rotor axis and triangular auxiliary sink 16 formed thereon, the tips of which point against the direction of rotation of the rotor. ^{A bearing eye 8'a, in which the rotor shaft 9 1} rotates, is integrally formed on one of the auxiliary poles 16. The other bearing bush 6'b is located in a return disk 17 made of a non-magnetic material, which is glued onto a bearing block 8'c.

The rotor 1 'consists of a plastic-bonded permanent magnet disc 1ß, in which a samarium-cobalt alloy is provided as the magnetic material. The permanent magnet disk is axially magnetized, that is, a south pole on one end face of the rotor is opposed to a north pole on the other end face. A spacer disk 19 or 20 is provided between the permanent magnet ^{disk and the bearing B 1 a and the bearing Q'b.}

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To clarify the natural size of the above Single-phase stepper motors are given the following realizable dimensions: length approx. 9 mm, width approx. 5 mm and height approx. 2.5 mm. The motors are for an operating voltage of designed to be less than or equal to 1.5 UoIt.

By enlarging the yoke disk 17 over the diameter of the rotor 1 · in addition to its function as a return disk and bearing, it can also act as a shield against external fields to serve.

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Claims (1)

ι 4 / b 4 4 Quarz-Zeit AG 6G00 Frankfurt / Main Graefstrasse 103 Claims Single-phase stepper motor, especially for clocks, with a rotor with a flat, multi-pole, disk-like rotor body, which rotates in a first plane, and a stator, which is made up of zuiei connected to one another via a bridge part carrying the excitation winding and arranged in a second plane parallel to the first plane Stator parts, each of which merges at its free end into a smaller number of poles facing the rotor face than the number of rotor poles, characterized in that a bearing (Ba, fl'a) for the rotor shaft (9.9 ·) is integrally formed. Single-phase stepper motor according to claim 1 with a permanently magnetic, axially magnetized rotor body and pole faces, at least one of which is divided into a main and an auxiliary pole, and a return disc which is arranged on the side of the rotor body facing away from the pole faces, characterized in that the bearing (ß'a) is formed on the auxiliary pole part (16) of the pole surface (7). Single-phase stepping motor according to Claim 2, characterized in that the return disc (17) is fixed in the housing so that it cannot rotate and a bearing (8'b) for the rotor shaft (9 ¹ ) is provided in this. 90981Ö / 00B8