DE264934C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 264934 CLASS 2 \ d. GROUP

GUSTAVE PLAISANT in PARIS.

Patented in the German Empire on November 15, 1912.

For this registration, the examination according to the Union Treaty of

March 20, 1883

Recognized on December 14, 1900 on the basis of the registration in France on November 24, 1911.

the priority

The invention relates to electrical machines in which one or more induced Body with reference to the fixed inducing body with epicycloidal movements are driven. In the machines of the previously known type, several inductors were ring-shaped around the planetary orbit of the induced body or a plurality of such placed such that a series of Poles with opposite signs on top of each other in each field in a circle followed. The present invention now aims to provide an electrical machine of the same type to create, in which the induced body or a plurality thereof with reference driven on an inductor which has two annular concentric poles. In such a machine the lines of force of the inducing field run radially, and the intensity of the field between the two poles is constant in all its points. It follows, therefore, that in the induced body which revolves in this field, whole special electrical phenomena occur in certain areas of use of electricity can be of great benefit, for example in machines for electrical Ignition of engines, also for machines for wireless telegraphing, etc.

Fig. Ι of the drawing is a schematic representation of a machine according to the present invention Invention. The circle 1 shows an induced body in the shape of a ring or a drum which is driven cycloidally in a radial field. The field is made by two circular concentric poles 2 and 3 of a cylindrical inductor educated. The outer pole 2 is exactly ring-shaped. The inner pole 3 can either be annular or be full. The induced body runs around its axis, and its support arm 4 rotates at the same time around the axis of the inductor under the influence of any mechanical means, for example planetary gears, Chain sprockets or special articulated joints. The induced currents can can be removed from the induced part in the same way as ordinary ones Dynamo machines is the case.

Fig. 2 shows the scheme of a particular embodiment of an electrical machine according to the invention.

This machine contains as a basis a closed circuit a, b, which revolves in a cycloidal movement in a radial magnetic field, the axis of which coincides with the main axis O of the cycloidal movement.

This field is z. B. generated by means of a

central cylindrical pole c of small diameter and a hollow cylindrical pole d of large diameter concentric with the former; between these poles of the opposite designation, the lines of force are directed radially around the axis 0 .

Assume that the closed circuit a, b is arranged in the form of a rectangle, the sides α and b of which are parallel to the axis O , and that it rotates about its side α; while the latter rotates at the same time about the axis O , it can be seen that the various points of the circuit describe cycloidal lines in the magnetic field, and that the number of radial lines of force which intersect the circuit is continually changed. In order to imagine in a simple manner how this line of force path directed from c towards the ring pole d changes, one assumes that the pole c is led back to a line 0 and that the side b coincides with this line with each revolution. Under these conditions the bundle or the lines of force a, O, b, which intersect the circuit a, b at any given moment, form a dihedral angle equal to half of the angle x, a, b, which is from the radial one passing through the axis α Area O, χ and the circuit area a, b is formed. Since the speed of rotation of this circuit is constant, it can be seen that the angle x, a, b increases proportionally to the time, and that thus the lines of force a, O, b also increase, continuously from the point in time when b between α and χ passes through until the moment where b comes to O. The lines of force are zero in the first

Moment and equal to a quarter of the total force line amount at the moment when b comes to O.

The electromotive force of the current generated in the circuit a, b is known to be proportional to the quotient of the amount of lines of force intersecting the circuit and the time, in such a way that it is constant during this half revolution. During the next half turn, the force increases.

amount of lines, which intersects the circuit a, b , in an absolute value of a quarter, the total amount of lines of force proportional to time down to zero; but since the force line field penetrates the circuit from the opposite surface as before, the resulting electromotive force is the same and of the same direction as in the previous half revolution. The electromotive force and the current strength in the circuit a, b are therefore constant during the entire revolution.

In practice, the center pole must be given a certain cross-section, such that the cylinder described from side b does not touch the axis O , that the maximum amount of lines of force is less than in the theoretical case cited above, and that the electromotive force which in the Circuit a, b is generated, is not absolutely constant; but you could look at the theoretical conditions. approach very closely and obtain an electromotive force that is essentially constant, especially when several circuits a, b are used simultaneously, which are correspondingly shifted from one another and connected in series or differently.

Of course, the rectangular shape is not necessary for the circuit a, b , but this can have any other shape without changing the results.

The circuit can also contain one or more magnetic masses that play the same role as the armature cores in known electrical machines. These masses can receive a simple rotary movement about the main axis O or a cycloidal movement with simultaneous rotation about the main axis and the satellite axis of the circuit.

The magnetic field can be created indifferently by means of permanent magnets or electromagnets be generated.

Claims (1)

Patent Claim:. Electrical machine whose induced body (or a plurality of same) by an epicycloidal movement rolled into one. magnetic field is driven, marked by a cylindrical inductor, the poles of which are circular and concentric with opposite signs. 1 sheet of drawings.