DE572071C - Adjusting device for electromagnetic vibration generator with armature driven on both sides - Google Patents

Description

Adjustment device for electromagnetic vibration generator with double-sided driven armature. The invention relates to an adjusting device for electromagnetic Vibration generator with an armature driven on both sides, especially for recording and reproduction of sound waves serve, -and aims to adjust the pole spacing or the space between the armature and the pole pieces and the position of the Armature in the magnetic field by means of only one easily accessible actuator Way to regulate.

Of the previously known adjusting devices for electromagnetic Vibration generator, in which it is already known, the adjusting device in this way train that the pole spacing is regulated and the armature centered at the same time can, the new device differs according to the invention in that the anchor and one of the magnet systems that drive it with the help of studs Base plate are pivotally attached, with which the second, on the opposite Armature side attacking magnet system and an adjusting device are connected, whose Adjusting spindle a non-magnetic, the armature and the movable magnet system on the ends facing away from the working air gap resiliently connecting with one another Body and thus also the armature tongue and the movable magnet system are adjusted, the position of the stud bolts and the point of application of the adjusting spindle preferably are chosen so that the displacement of the armature in the air gap is in the same direction, but corresponds to twice the movement of the pole piece of the movable magnet. This has the advantage that when enlarging or reducing of the total air gap from pole to pole, the armature tongue is always centered in the central position is.

The drawing illustrates the invention using exemplary embodiments.

Fig. I shows an embodiment of the new adjusting device in longitudinal section by an electromagnetic vibrator.

FIG. 2 shows a device similar to the embodiment according to FIG represent.

Figure 3 is an end view of the same; equipped with two magnetic coils Contraption.

Fig. Q. is a plan for this.

When approaching or removing the end parts i and 2 of the magnets the position of the oscillating armature 3 must also be changed so that the latter is always centered in the magnetic field. The new adjusting device allows the correct position automatically for any pole spacing without trial and error to achieve.

In the embodiment according to FIG. I, the magnet 2 is arbitrary Way on the base plate 4 made of non-magnetic metal attached. The oscillating armature 3 is attached to a preferably flexible body 5, and the base plate 4 and the body 5 are connected to each other by stud bolts 6, which they hold at the desired distance by means of screw nuts.

The magnet i is similarly connected to the base plate by stud bolts 7 4 and also to the body 5 by a bolt 8 or the like. Connected by the the smallest pole spacing is set once and for all.

The adjusting device g protrudes with its spindle i o through the base plate 4 and carries at its end a screw thread which in a corresponding hole of part 5 engages. The parts 4 and 5 are separated from one another by the compression spring i i kept away.

By rotating the adjusting device g in one direction, the parts 4 and 5 are brought closer to each other, whereby the magnet i is pivoted so that its effective pole end moves away from the magnet 2, while at the same time the oscillating armature 3 is also removed from the magnet 2 . The lever arms A and B are dimensioned according to the invention so that the adjustment of the armature 3 makes up half the amount of the adjustment of the magnet i, so that the armature is always centered in the magnetic field. The approach of the magnets i and 2 is brought about by opposite rotation of the adjusting device g, the compression spring ii facilitating the approach.

The stud bolts 6 and 7, which move when the magnet swivels i and the armature 3 bend to a small extent, can also be done by horizontal axes be replaced, which is attached to the base plate 4 by means of a suitable approach or consist of one piece with it.

In Figs. 2, 3 and 4, a device is shown in which the pole pieces 26 formed by layered metal sheets; 28 at the ends of the magnet egg and 2 are attached. The pole pieces 26 consist of thin metal sheets that are cut out are to enable the attachment of the underlying coil 25. The sheet metal washers 26 are also perforated to allow the passage of the connecting screw 27, by which they are united to a pole piece.

The sheets 28 are arranged in the same way, but designed in such a way that that they can be inserted into the coils 25, the core of which they form. The adjusting device for the magnet i and the armature 3 can be done on their front or back.

With. Appropriately trained pole pieces you can also stand vertically extending coils face the armature, and the number of these coils can can be increased from two to four without the automatic double adjustment or regulation would be impaired. The lower magnet can also be omitted come by attaching the pole pieces in question to the base plate and their polarization is caused by the flux of the lines of force of the upper magnet.

The simultaneous regulation of the pole spacing and centering according to the invention of the armature by a single actuator can be used both with horseshoe magnets as with Bar magnets are applied. The mechanical device required for this must be made of non-magnetic material.

Claims (1)

PATENT CLAIM: Adjusting device for electromagnetic vibration generator with an armature driven on both sides, by which the pole spacing is regulated and the armature is centered at the same time, characterized in that the armature (3) and one of the magnet systems (i) driving it with the help of studs (6, 7 ) are pivotally attached to a base plate (4) with which the second magnet system (2) acting on the opposite armature side and an adjusting device (g) are connected, the adjusting spindle (io) of which is a non-magnetic, the armature (3) and the Magnet system (i) is adjusted on the ends facing away from the working air gap and flexibly connecting the body (5) and thus also the armature tongue (3) and the movable magnet system (i), whereby the position of the stud bolts (6,7) and the point of application of the adjusting spindle ( io) are chosen so that the displacement of the armature (3) in the air gap corresponds to a movement of the pole piece of the magnet (i) in the same direction, but twice as large icht, so that when the total air gap is enlarged or reduced from pole to pole, the armature tongue is always centered in the central position.