DE9211870U1 - Ferromagnetic motor - Google Patents

Description

To the forecourt model report _; #1/SB

Description
Ferromagnetic motor

The state of the art includes the production of strong permanent magnets from special ferrite alloys, whose magnetism remains indefinitely in terms of permanence and field strength; the idea of the ferromagnetic motor is based on this.

In order to generate a constant torque that is independent of electricity, a particularly low-loss mechanical control of the permanent magnets is required, which enables the conversion of static magnetic force into a kinetic force.

The solution to the problem will be in a

Functional diagram - Fig. 1 -

and in an embodiment - Fig. 2 of the drawing shown and described in more detail below.

The external rotor L is arranged around the four-part, fixed magnet armature S (stator). On its circumference there are 2 x 4 rotatably mounted rod magnets, so-called planets Pl and P2, which are offset backwards against each other and can rotate around themselves in the same direction as the rotor. This is achieved by low-loss rolling using their gears PZ on the fixed gear Z (gear ratio 1:2).

Starting from the basic position of all magnets in Fig. 1 - functional diagram - after every quarter turn of the rotor L, each planet and 4 armature magnets are opposite each other with the same poles. The resulting counterforces (repulsion) generate - depending on the armature position (see below) - a direction-bound torque via the gears ZP of the planets on the rotor L, which also receives a recoil in its direction of travel.

This process repeats itself due to the same direction of rotation of the rotor and planets, which creates a uniform, self-controlled rotating magnetic field.

The armature S (stator) can be adjusted (reversibly) by the angle of attack Rv shown in the functional diagram in Fig. 1. This allows the efficiency up to standstill and the direction of rotation of the motor to be determined.

Claims (2)

For the registration of the user certificate y/M/SB protection claims 1. Ferromagnetic motor, which, analogous to the basic physical principle of electric motors, converts the static force of magnetic fields into a kinetic force, characterized, that the ferromagnetic motor is operated exclusively with permanent magnets, and the pole reversals for the torque - in contrast to the electromagnetic principle - are achieved purely mechanically by special control and arrangement of the magnets themselves. 2. Ferromagnetic motor according to claim 1, characterized in that that an external rotor rotates around a fixed ferromagnetic armature, on the circumference of which rotatable bar magnets - so-called planets - are arranged, which move around themselves in the same direction as the rotor by means of toothed operation. This rotation principle results in the ability to control magnetic force fields between the rotor and armature through repulsion of aligned magnetic poles, which results in a continuous torque. The protection claims also extend to design variants that result from the basic principle.