DE2247143A1 - MAGNETIC TURBINE - Google Patents

Description

Magnet turbine description and claims subject matter of the invention is a magnetic turbine. It represents an engine that works on the turbine principle a turbine wheel is set in permanent rotation by a radial magnetic radiation will.

The source of the magnetic radiation is a ring magnet (1), the turbine casing, 2-pole radially magnetized, its force field radially evenly against its center shine.

The turbine wheel (2) is centered with its axis (4) in the turbine shell used0 It catches the magnetic radiation and converts it into work.

"Work" is the product of the factors "force" times "path".

1. About "power": a) Just under half of the turbine wheel is fitted with a Segment magnets (7) occupied, the line of intersection of which runs parallel to the line "fulcrum - center "(4 + 3).

which is 2-pole radially magnetized in the vertical pole position to the ring magnet iet. If the turbine wheel is inserted into the ring magnet, between the strong repulsive forces in both magnetic fields.

b) To double these forces, the second half of the turbine wheel can can be filled with another segment magnet (8), which is also 2-pole radial, but magnetized in the opposite (diametrical) pole position to the first segment magnet (7) is, 80 that between its magnetic field and that of the ring magnet there are attractive forces to rule.

c) The turbine wheel can also be designed in the form of a spiral (6), its larger half-rim made of a spiral segment magnet (g), 2-pole radial in g @ ela @ er The pole position is magnetized to the ring magnet.

2. To the way ": This force must be able to develop in the" space ", therefore the turbine wheel is designed as an eccentric disk whose pivot point (4) is around about 1/20 of their diameter outside their center (3) lies. the Magnetic forces of the ring magnet and the turbine wheel act in their resultant the center of the turbine wheel (3) and over the distance to the pivot point (4) as a lever (5) on the fulcrum (4), and thus the magnetic forces over this * leverH are called Rotational forces diverted to the turbine wheel. This causes the gravel to rotate to the right. When the turbine wheel rotates, it opens in the force field between the ring magnet and Turbine wheel (it also closes in Palle b) a free space into which, as required, the strength to work can develop.

3. On "work": The implementation of force in work must be continuous take place.

This continuity is based on the constancy of the magnetism of permanent magnets, the special type of their arrangement in the Xagnet turbine and in their characteristic Motor skills.

The ring magnet in the turbine casing and the segment magnet in the turbine wheel, both shown in several embodiments and in various forms Can be combined with each other, allow the continuous repulsion flow of the two Magnetic fields - first characteristic - without magnetic approaches with labor to be conditional, since magnetic approaches serve in the functional system of magnetic repulsion integrated - the second characteristic -, because the first part of the turbine wheel magnet, the Pührungs- or peak field, which is constantly in the magnetic field as you continue of the ring magnet pushes in, it is already tensioned in this magnetic field and therefore does not need a higher magnetic potential and thus no resistance to overcome.

Pos. 1: ring magnet in circular form (= turbine casing, stator); Item 2: Turbine wheel (rotor) designed either only according to pos.

7 or according to pos. 7 and 8; Pos. 3: center of the turbine wheel; Poe. 4: Center of the ring magnet and eccentric point of the turbine wheel - pivot point; Pos. 5s lever; Pos. 6t turbine wheel instead of Pos. 2; Pos. 10: ring magnet instead Pos. 1, but only in series with offset from Pos. 11; Item 12: Variations to items 1, 2, 6u. 10.

Claims (5)

ttent entitlements: (1.) Magnet turbine for converting magnetic force from bauermagneten in progress as a drive for aggregates of any form, characterized in that the turbine casing (stator) with a circular ring magnet, 2-pole radially magnetized, is occupied, which forms a magnetic field of equal intensity that opposes on all sides its center shines and in this the turbine wheel axle is embedded, on which the turbine wheel is placed eccentrically (approx. 1/20 of its diameter). It will with a segment magnet of 1800 (also less) circumference, 2-pole radially in the same way Pole position to the ring magnet magnetized, equipped and inserted into the turbine casing. This creates a tension pressure between the two magnetic fields, which over the segment magnet acts on the turbine wheel and this via the lever "center point" Turbine casing -axis point turbine wheel "set in rotation. Reasoned by the radial magnetic radiation and the unchanged position of the segment magnet as it continues to run The tension and repulsion conditions remain continuous in the round of the ring magnet exist, (required) magnetic approaches are integrated in the functional system. 2. Magnet turbine according to claim 1, characterized in that for Increase the efficiency of the turbine wheel with a second segment magnet, however magnetized in the opposite pole position to the ring magnet, occupied, eo that next to the Repulsion field there is an attraction field with the same effect. 3. Magnet turbine according to claim 1, characterized in that for Reinforcing the leverage of the turbine wheel with a segment magnet in the form of a Half-spiral is equipped. 4. Magnet turbine according to claim 1, characterized in that the Turbine casing provided with a ring magnet in the form of a full spiral; is, by which a magnetic potential gradient is created in a clockwise direction, which causes the fireh movement of the turbine wheel is still accelerated, then connected in series 5. Magnet turbine near claim 1, 2, 3 and 4, characterized in that the design of the permanent magnets from many individual lauermagneten may exist, the ring magnets in smaller or larger segment magnets can be divided or by electromagnets with control, can be replaced in whole or in part.