DE387223C - Inductor, especially for generating faradic currents - Google Patents

Description

Inductor, especially for generating faradic currents. The so far known Faradization inductors contain two cylindrical coils that are used for regulation the amperage are arranged to be displaceable relative to one another. Do you want the amperage down to the lowest values, the movable coil must be very far be removed from the fixed. The facility is therefore quite large Space. On the other hand, inductors have also become known, which in the manner as so-called variometer of wireless telegraphy in the form of two concentric, circular coils rotatable within one another are formed. Here is for A spherical winding is used to make use of the small amount of space available to be provided. It therefore becomes relatively expensive to manufacture. Are further ironless folding transformers known in spark telegraphy, in which the coils arranged so as to be rotatable about an axis which is outside the coil axis and which is perpendicular to this axis are. These transformers have the disadvantage that the secondary current is not linear is dependent on the angle of rotation and that they only allow an abrupt coupling. In addition, the efficiency of the ironless transformers is low, because of their name with greater distance of the Spuleri from each other the transferred energy because of the extremely weak action of the magnetic flux is very small.

These disadvantages are eliminated according to the invention in that with the coils of the faradization inductor, an iron core with a tapering cross-section cooperates in such a way that the Faradisatiionsstrom generated when one coil rotates is linearly dependent on the angle of rotation of this coil. The rotation of the movable Coil takes place in the known way around a lying outside of its winding surface, instead of axis arranged perpendicular to the coil axis.

The drawing shows an exemplary embodiment of the subject matter of the invention partly shown in section. Recessed in a mounting plate pi is located a solenoid s, short axial length. She surrounds one end of a Iron core e, which is in the form of a circular arc curved horn from the Mounting plate extends. It is made of metal strips of different lengths in the Kind of composed that, calculated from the coil s, the cross-section is continuous decreases, until the end there is only the cross-section of a single sheet is. At the edge of the plate p, _, which is within the curvature of the iron core lies, an axis of rotation a is provided around which a second plate p "_., is rotatably mounted is. This plate carries the zV "wide coil s2 and is with etiek pointer-: 2 v @ rsehen.; = Der over a scale k rigidly connected to the plate p1.

One of the two coils, in the example shown, “is on a direct current power source q is connected in series with a breaker u. The ends of the other coil s. Are led to terminals c, to which the one to be examined or the body to be treated is connected by suitable gradation of the cross-section of the iron core e, an approximately linear dependence of the secondary current intensity can be found from the angular rotation of the movable coil. This is undoubtedly an advantage compared to the known arrangement in which the linear displacement of the secondary coil measured and then the amperage is estimated in a relatively crude way, since the current strength is not simply dependent on the displacement. On the other hand, with the new arrangement, the current strength can be up to a substantial Press down a lower value than with the usual straight-line shift the coil can be achieved because this is due to the allowable size of the apparatus is more limited.

Claims (1)

PATENT CLAIMS: i. Inductor, in particular for generating faradic currents, in which the coils can be adjusted relative to one another about an axis of rotation lying outside, namely perpendicular to the coil axis, characterized in that the iron core enclosed by the coils is curved according to the movement path of one coil and has a uniformly decreasing cross-section . a. Inductor according to Claim i, characterized in that the iron core is composed of sheet metal curved in the shape of a circular arc and of graduated length. 3. Inductor according to claim 2, characterized in that the cross section of the iron core is graduated such that there is proportionality between the angle of rotation of the movable coil and the change in the secondary current intensity.