DE1001191B - Electromagnetically driven, polarized stepping mechanism - Google Patents

Description

Electromagnetically driven, polarized stepping device object of the main patent application is an electromagnetically driven polarized stepping mechanism to drive electrical slave clocks with a concentric excitation coil inside arranged single ring anchor directly coupled with the minute hand, its Poles arranged on the circumference of the ring as well as those on the inner ring surface of the coil arranged poles the number of necessary for a full revolution of the minute hand Steps correspond to the reduction gear arranged inside the ring armature to the hour hand shaft. As an expedient further training is in the main patent application proposed the iron circle of the coil as a sheet metal jacket with comb-like approaches to carry out the formation of the starter poles.

The invention aims at a further advantageous embodiment of the Subject of the main patent with the aim of the pole formation of both the armature as well as the excitation coil. The invention therefore proposes that at a stepping mechanism with the features of the main patent specified above Ends of the attached to the upper and lower annular surfaces of the sheet metal jacket and the inner circumferential surface of the excitation coil surrounding approaches each approximated to are led to the neutral zone of the coil and there pairs of poles of alternating polarity form, which are in different levels to each other so that between them the 'poles of the associated ring armature can revolve. A useful further education the invention provides that the ends of the comb-like lugs just before the neutral Zone are radially angled and designed as pole shoes, which in pairs in different levels are related to each other. Through this training of the excitation coil Loss scattering are avoided, so that the efficiency of the drive device is increased. This training of the excitation coil and the associated increase the efficiency of the stepping mechanism has the advantage that with the same size of the drive device increases the number of poles or, with the same number of poles, the size the stepping mechanism can be kept smaller. The direction of rotation can also be changed a loss-free stepping mechanism by simple means clearly determine. Another expedient development of the invention provides for this purpose before, the poles or pole shoes of the excitation coil of the direction of rotation of the associated To deform ring anchor accordingly on one side.

According to another expedient development of the invention is also the ring armature assigned to the excitation coil is enclosed by a sheet metal jacket, its comb-like approaches corresponding to the approaches of the sheet metal jacket of the excitation coil Surround the outer jacket surface of the ring anchor, and the ends of the ring in the neutral zone 'The armature is bent radially to form pole pieces lying in one plane are. This makes it possible that the ring armature of the drive device with its pole pieces between the poles or the pole pieces of the fixed excitation coil running around. A magnetic material is expediently used for the permanent magnet of the ring armature high coercive force.

The invention characterized above and in the claims is on hand the drawing described in several embodiments without them of course is limited to these embodiments shown. It shows Fig. 1 in perspective View of a detail of the excitation coil, FIG. 2 a cross section of this excitation coil with an associated ring anchor, FIG. 3 shows a detail in a perspective view an excitation coil with formed pole pieces, Figure 4 shows a cross section of this Excitation coil with an associated ring armature, FIG. 5 shows a view of the FIGS. 3 and 3 4 angled excitation coil, FIG. 6 the perspective view of a Section of the ring anchor.

The excitation coils shown in detail in FIGS. 1 to 5 10, to which the polarized incremental pulses are fed, are in the form of toroidal coils formed, which are surrounded by an iron jacket 11, which at its upper and lower annular surface arranged lugs 12 in such a way around the inner jacket surface of the coil 10 are bent, that always; give approach of the upper ring surface next to one approach the lower ring surface in compliance with a certain Space between the individual approaches lies. The edges of the lugs 12 are, as FIGS. 1 and 2 show, up to approximately the neutral zone of the excitation coil pulled up so that between the mutually offset approaches of the upper and The lower annular surface of the iron jacket 11 is an air gap in which the pole pieces 18 of the ring armature shown in Figure 6 different at the poles thus formed Polarity can pass. In the case of the coil arrangement shown in FIGS. 3, 4 and 5 are the approaches 12 led up to approximately the neutral zone radially in front of this angled and the edges 13 formed into pole pieces. The one between the against each other offset approaches 12 existing air gap thus results in the circulation of the Armature 15 required air gap on these pole pieces. Approaches 12 of the excitation coil are, as can be seen from FIGS. 3 and 5, corresponding to the direction of rotation of the armature deformed on one of the edge sides 14.

The one assigned to the excitation coil and made from a higher magnetic material Coercive force existing ring armature 15 (Fig. 6) is similar to the excitation coil surrounded by a sheet metal jacket 16, which is attached to the upper and lower ring side Approaches 17 surround the outer surface of the armature. The ends 18 of these approaches In contrast to those of the excitation coil, however, they extend into the neutral zone of the armature 15 guided and then bent radially and formed into pole pieces, which are all in a common plane.

Claims (5)

CLAIMS: 1. Electromagnetically powered polarized Stepping mechanism for driving electrical slave clocks with one inside concentric excitation coil arranged single, with the minute hand directly coupled ring armature, whose poles arranged on the circumference of the ring as well as those on the inner ring surface of the coil arranged, as a comb-like approaches of its sheet metal jacket formed poles of the number of necessary for a full revolution of the minute hand Steps correspond to the reduction gear arranged inside the ring armature for the hour hand shaft according to patent application T 9135 VIII b / 83b, characterized in that that the ends of the attached to the annular surfaces of the sheet metal jacket and the inner Approaches surrounding the outer surface of the excitation coil each approximated to neutral Zone of the coil and form pairs of poles of alternating polarity there, which stand in relation to one another on different levels so that the poles between them of the associated ring anchor can rotate. 2. Stepping mechanism according to claim 1, characterized in that the ends of the comb-like lugs just before the neutral Zone are radially angled and designed as pole shoes, which in pairs in different levels are related to each other. 3. Stepping mechanism according to claim 1 or 2, characterized in that the poles or the pole shoes of the excitation coil corresponding to the direction of rotation of the associated ring armature - deformed on one side are. 4. Stepping mechanism according to claim 1, characterized in that the the The ring armature associated with the excitation coil is also enclosed by a sheet metal jacket is, whose comb-like approaches correspond to the approaches of the sheet metal jacket of the excitation coil surround the outer circumferential surface of the ring anchor and its ends in the neutral Zone of the armature bent radially to form pole pieces lying in one plane are. 5. Stepping mechanism according to claim 4, characterized in that for the Permanent magnets of the ring armature use a magnetic material with high coercive force finds.