DE597742C - Oscillating armature motor - Google Patents

Description

GERMAN EMPIRE

ISSUED ON May 30, 1934

REICH PATENT OFFICE

PATENT LETTERING

JV £ 597742 CLASS 21di GROUP

Oscillating armature motor

Patented in the German Empire on August 21, 1931

There are known electric motors in which the two-pole .Anker between two Electromagnet vibrates, which are fed with alternating current. The anchor will be there in its zero or rest position by springs acting on the pole ends of the armature held. With every current surge, the armature is attracted by the electromagnet and swings out of the zero position. In this way, the armature is set in torsional vibrations, the number of which corresponds to twice the frequency of the alternating current. So far, the oscillating armature has been moved back by two helical springs, which are connected to the two pole ends of the Armature mechanically connected and approximately in the radial direction with respect to the oscillating armature were excited. It is now practically very difficult, the two coil springs sufficiently evenly with respect to their Establish length and traction in mass production. As a result, a uneven loading of the armature shaft and its bearings occur. In the following it will now be shown how this difficulty arises can eliminate.

According to the invention, the device is made so that the two outer pole ends of the Oscillating armature are mechanically connected by movable connecting links with pivotably mounted lever arms, which in turn are coupled to one another by only one spring acting on them in such a way that a uniform tensile effect In on the movable connecting links mentioned radial direction is exercised. This arrangement ensures that on the two Pole of the oscillating armature in both directions in all cases a uniform pulling effect is achieved.

A particularly advantageous embodiment of the invention is that the Lever to which the movable members are attached, designed with two arms and on their free ends are connected to one another by a tension spring. In Fig. 1 is an embodiment of such an arrangement shown in plan. 1 is the laminated stator core of the drive motor which the two facing fixed poles 2 and 3 are attached, the with the coils 4 and 5 are occupied. These two coils 4 and 5 are supplied with alternating current Usual frequency fed. The shaft 6 is arranged between the two poles 2 and 3, on which the two-pole oscillating armature 7 is attached. 8 and 9 are now two two-armed levers that operate on the am Stator lamination packet ι seated bolts 10 and 11 are rotatably mounted. The ends of one part of the two double-armed levers 8 and 9 are supported by movable members 12, 13

'*) The patent seeker stated as the inventor:

Hans Schirrmeister in Berlin-Zehlendorf.

with the two poles of the oscillating armature 7, the ends of the other part of the double-armed Lever, however, connected to one another by the helical tension spring 14. By this arrangement it is achieved that on the two poles or pole ends of the Oscillating armature 7 via the two movable connecting members 12 and 13 an equally strong Tensile effect exerted and as a result the bearings of the shaft 6 stressed evenly will.

Instead of a tension spring, a compression spring can advantageously be used in some cases which can be designed, for example, as a leaf spring. The device is then taken so that the lever arms are designed as one-armed levers and between the two At the ends of the lever, a compression spring, advantageously designed as a leaf spring, is used.

In Fig. 2, an embodiment is shown for this. 21 is the stator laminated core again, which has the two mutually facing poles 22 and 23, on which the two are fed with alternating current Coils 24, 25 are attached. 26 is a shaft on which the oscillating armature 27 is arranged is. There are now the two one-armed levers 28 and 29 on the two bolts 30 and 31 seated on the laminated stator core pivoted. 32 and 33 are elastic members through which the two Lever arms 28 and 29 are connected to the two poles of the oscillating armature 27. Between The leaf spring 34 is now on blade-like bearings at the ends of the levers 28 and 29 clamped, which seeks to push the two levers 28, 29 outward and thereby open the movable members 32, 33 exert a tensile effect, by means of which the oscillating armature is withdrawn into its rest position each time the magnetic field disappears.

Claims (3)

Patent claims: 1. Oscillating armature motor, the armature poles of which by attacking in the radial direction Spring force are held in the rest position, characterized in that the • both pole ends of the oscillating armature (7, 27) by movable connecting links (12,32) are connected to pivotably mounted lever arms (8, 28), which through only one spring (14, 34) acting on them is mechanically coupled to one another in this way are that on the movable members (12, 32) a uniform pulling effect in radial direction is exerted with respect to the oscillating armature. 2. Oscillating armature motor according to claim 1, characterized in that the lever (8), to which the movable members (12) are attached, are designed with two arms and connected to one another at their free ends by a tension spring (14) are. 3. oscillating armature motor according to claim 1, characterized in that the lever arms (28) are designed as a one-armed lever and between the two ends the lever uses a compression spring (34) advantageously designed as a leaf spring is. 1 sheet of drawings