DE295047C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- 'JKl 295047 - CLASS 21 a. GROUP

in TURIN.

mechanical work.

Patented in the German Empire on March 12, 1914.

The invention relates to a device for amplifying weak periodic Currents, for example those for telephone purposes, and is based on dynamo-electric vision Principle according to which electrical energy is generated using mechanical energy by assuming some kind of electromagnetic excitation.

The subject of the invention is, however, characterized by the lack of a collector or any sliding contacts, and also by the fact that he has no power from one Frequency generated by the frequency of the

! 5 is different from the current that strengthens shall be.

The device according to the invention consists essentially of two fixed windings, the inducing and the induced, which are perfectly equal and symmetrical to one another, in such a way that each is the same can work indiscriminately both as a primary winding and as a secondary winding, furthermore from a rotating part, which is made of homogeneous. High conductivity metal is made; it gets its rotation from some external source of constant force Speed.

The mode of operation of the apparatus can easily be explained with reference to FIG. 1, which schematically shows an embodiment.

The rotor R is a smooth, solid disk made of electrolytic copper. In front of each of its two circular surfaces are at a small distance from it. two coil systems arranged, whose. Coils are parallel to the disc and have laminated cores made of soft iron; these cores have their greatest extent in the direction of the radii of the copper disk. on.

In Fig. Ι the course of these windings A ₁ B, C, D is shown in front of one side of the disk R ; on the other side there could be a system exactly the same as this, in such a way that what is drawn is displaced parallel to itself on the other side and the coaxial coils are thought to be connected in series in order to obtain coincident magnetic effects across the disk. However, it is sufficient for understanding, just the windings on one side of the disc

to look at how they can be seen in Fig. ι. Here a, b, c, d mean the cuts through the four cores made of soft iron on which the coils A ₁ B and D ₁ C, which are identical, are wound. The first two of these, A and B _1, are connected one behind the other in such a way that they result in oppositely directed lines of force across the disk when a current flows through them. In

The coils C and D are connected to one another in the same way.

The system of the two coil pairs A, B and C ₁ D is symmetrical to the two planes AB and CD, which are at right angles to one another, and also to two planes at 45 °. One pair of coils is the primary, the other the secondary; they are part of the two separate and isolated circuits I and II.

When a periodic current flows through one of the windings, for example A, B, a statically induced current is created in the disc, which runs around the axes of the coils A and B parallel to their windings; but the resulting magnetic flux of lines of force across the disc, since it is not coupled to the turns of coils D and C , will not induce any current in them.

There is no mutual static induction between the two pairs of coils.

If, however, the disk is allowed to rotate, for example in the direction of the arrow in FIG. 2, an electromotive force will arise in the direction of the diameter BA which intersects the resulting primary lines of force during rotation. This results in a diametrical flow B, A, which branches over the right and left half of the disk and runs approximately along the lines adb and acb in FIG.

This current induced in the disk runs very similarly periodically as the primary current A ₁ B, maintains its arrangement and position in space unchanged during the rotation of the disk and has a strength which is a function of the speed of the disk.

The magnetic flux of the lines of force of the two induced circuits a, d _} b, α and a, c, b, a is sytnmetically to a plane perpendicular to the disk, the track of which is C ₁ d (Fig. 2); it intersects the disk plane in the area of the disk center and the radii Oc and Od ₁ , on one side of the diameter AB in the opposite direction as on the other. The second pair of coils CD (Fig. 1), the core axes of which lie in the plane with the track cd , is maximally coupled to this flux of the lines of force of the current induced on the disk, and the coils therefore absorb most of the energy therefrom by induction . The secondary winding CD is therefore traversed by a current which is periodic similar to that which excites the primary winding AB , with a strength that increases with the speed of the rotor.

Because of the perfect equality and symmetry of the two windings, the device can operate in any direction of rotation of the disc in a completely reversible manner with respect to two electric circuits containing the windings AB and CD , isolated from each other, that is: when a periodic current flows through CD , it becomes AB work as a secondary winding.

The cores a, b, c, d made of soft iron can optionally be polarized by permanent magnets in the manner of magnets commonly used in telephony, or they can be excited by direct current for the purpose of bringing the iron to its maximum permeability. Of course, this polarity must be directed in such a way that a constant, closed force line current goes through each two-pole coil pair.

To use this device as a telephone relay, one closes the line coming from the station TR (Fig. 3) over one of the windings, for example AB ₁ and the line going to the station RT , over the second winding CD. The device is fully reversible in both directions as soon as the disc is rotated at a reasonable speed without any commutation being necessary.

The amplification factor of this telephone relay is the product of the surface area the disc and its number of revolutions.

Claims (3)

Patent Claims: 1. Reversible relay for amplifying weak periodic currents with expenditure mechanical work, characterized in that a full metallic disc of high conductivity in the area The magnetic fields of two fixed and isolated windings are rotatable, one of which is in the primary and the other in the secondary . Circles, and these two windings exactly the same and symmetrical to two on top of each other and planes perpendicular to the plane of the disc are arranged in such a way that they do not generate mutual induction, as long as the disc stands still. 2. Reversible relay according to claim 1, characterized in that each of the two the windings on each side of the disc are a pair of diametrically opposed to each other Contains coils, and both pairs, primary and secondary, with their centers on two mutually perpendicular diameters of the disc, the coils being connected so that when current passes through the coils of each winding a closed force line flow that penetrates the pane twice is created. 3. Reversible relay according to claim 1, characterized in that the windings Laminated cores made of soft iron enclose them by constant magnetic Fields are polarized. 1 sheet of drawings.