DE202005003834U1 - Magnetic rotation intensifier containing stators round rotor with any arbitrary permanent magnets, with one or more stator permanent magnets or magnetising direction along rotation direction, etc - Google Patents

Abstract

Round rotor (1), on or in which are fitted any arbitrary number of permanent magnets, are located permanent magnetic stators (2). One or more stator magnets are magnetised along rotation direction (3). Fitting and aligning of permanent magnets can be variable, preferably adjustable at three coordinate axes (X,Y,Z). Typically rotor and stator permanent magnets are covered so that only their ends remain exposed.

Description

Of the Magnetic rotary amplifier serves to increase the energy efficiency of technical systems. This goal is achieved with the help of a novel magnetic rotary amplifier.

The aim of the increase in efficiency is achieved by the pre, intermediate, parallel or downstream connection of a novel magnetic rotary amplifier ( 7 as well as detailed in 1 and 2 ), consisting of rotor ( 1 ) and stator ( 2 respectively. 4 in combination with 5 ), which makes use of the attractive and repulsive forces of permanent magnets and thereby supports or enhances the rotational movement.

This is made possible by the in 1 and 2 shown design principles for such a magnetic rotary amplifier ( 7 ), which serve here only to illustrate the construction method, but do not have to represent the final design. This relates both to the design and number of rotors / stators and to the number of magnets or their orientation or arrangement. The magnetic rotary amplifier ( 7 ) consists of the rotor ( 1 ) with an arbitrary number of embedded permanent magnets, the rotation body itself ideally should consist of a non-magnetic, as light as possible material, and the stator ( 2 respectively. 4 / 5 ), wherein the holder should also consist of a non-magnetic material.

At the in 1 used stators ( 2 ) are any number of permanent magnets (circular cut-outs) which are curved in the same radius as the rotating body rotating between them. By the primary source of motion ( 6 ) initiated movement is strengthened by the attraction of the two different poles (north and south pole). Once the rotor ( 1 ) has exceeded the middle position in which attractive and repulsive forces act to the same extent, the repulsion between the similar poles (north poles) comes into play and gives another impulse of movement in the direction of rotation ( 3 ).

In 2 takes over a ramp ( 4 ) of a ferromagnetic material in combination with a permanent magnet ( 5 ) the function of the stators. This ramp ( 4 ) is designed such that it faces the rotor ( 1 ) approximates. In addition, at its lower end outboard is a permanent magnet ( 5 ) so fastened that to the rotor ( 1 ) pointing pole with the on the rotor ( 1 ) outside pole (is the same). Because the distance between the rotor ( 1 ) and ramp ( 4 ) as the rotation decreases, the attraction thus increases, ensuring that the rotation is maintained or accelerated. At the point where the attraction is strongest, it comes through the mounted permanent magnet ( 5 ) to a magnetic repulsion, which also in the direction of rotation ( 3 ), so it is even stronger. For the 1 and 2 that the direction of rotation is fixed and indicated by the arrows ( 3 ) ( 1 and 2 ). However, it can be changed by a different arrangement of the permanent magnets, but is always unidirectional in the mode of action (exclusively left or exclusively clockwise).

For 1 and 2 applies that the distance between rotor and stator should be kept as low as possible.

Potential applications for such magnetic rotary amplifiers ( 7 as well as detailed in 1 and 2 ) are, for example, power generation, drive systems, etc. On the power generation is briefly exemplified, where the principle of operation is also applicable to other applications.

The magnetic rotary amplifier ( 7 ) is connected via a rigid axis both to the drive segment ( 6 ), which supplies the initial energy, as well as the generator ( 8th ), where by the initial energy and the magnetic rotary amplifier ( 7 ) is converted and removed from the system ( 3 ). It does not matter what drives segment ( 6 ) or generator ( 8th ) is used. It may be in the drive segment ( 6 ) act, for example, a wind, water or heat turbine, an internal combustion engine or another drive source. For the generator ( 8th ) is that it may be a Innenpol-, Außenpol-, synchronous or asynchronous generator with any number of pole pairs or coils. It is also irrelevant how the power generated in retrospect eg by transformers, rectifiers, etc., processed or changed.

Claims (4)

Magnetic rotary amplifier, characterized in that stators are mounted around a rotor in which any number of permanent magnets are embedded or mounted ( 1 ). One or more of these stator magnets (permanent magnets) are arranged around the rotor, with their magnetization direction running along the direction of rotation. Arrangement and orientation of the permanent magnet can vary. Magnetic rotary amplifier according to one of the preceding claims, characterized in that the rotor and stator magnets can be adjusted via three axes (X, Y and Z axis). Magnetic rotary amplifier, after one of the previous ones Claims, characterized in that the rotor and stator magnets in such a way Be covered so that only the ends of the magnets are lying open. Magnetic rotary amplifier, according to one of the preceding claims, characterized in that, starting from the direction of rotation, in front of the respective stator magnet, a ramp made of a ferromagnetic material in the form of a circular cutout is mounted such that it approaches the rotor in the direction of rotation ( 2 ).