RU2022112992A - A highly efficient way to create electromagnetic unipolar motion - Google Patents

Claims (5)

1. A highly efficient method of creating electromagnetic unipolar motion, which uses electrically conductive rings (1), permanent magnets (2), magnetic cores (3), electrically conductive jumper (4), control circuit (5), external power supply (6), sliding contacts (7), rotation rotor (8), radial current supply (10) to the outer electrically conductive ring (1), radial current supply (11) to the internal electrically conductive ring (1), current supply device (12), ring current collectors (13) and external mechanical load (14), and characterized in that the rotation of the magnetic poles of the stator (current circuits) is synchronous with the rotation of the magnetic poles of the rotor (8) (permanent magnets (2)) is ensured by the rotation system of the magnetic poles of the stator, while the area of the magnetic poles of the stator (current circuits) ) and the average values of the distribution of magnetic fields in them are unchanged (S=const, B=const) when the rotor (8) rotates; in addition, when the rotor (8) rotates, the magnetic poles of the rotor (8) (permanent magnets (2)) are always on at a constant distance from the magnetic poles of the stator (current circuits), while along the perimeter of the rotor (8) there is an alternation of polarity of at least one pair of opposite magnetic poles of the rotor (8) (permanent magnets (2) of polarity S/N and N/S) , and between them there is an alternation of the polarity of opposite magnetic poles of the stator (current circuits). 2. A highly efficient method of creating electromagnetic unipolar motion according to claim 1, in which electrically conductive rings (1) with radii R (outer ring) and r (inner ring) are located in the same plane and have a common center coinciding with the axis of rotation of the rotor (9), between them there is at least one pair of permanent magnets (2), the main vector of magnetic induction ↑B _mag of which is directed inside them perpendicular to the plane of the electrically conductive rings (1), while the permanent magnets (2) are opposite (N/S and S/ N) magnetic poles of the rotor (8), with which they are rigidly connected and can rotate freely between electrically conductive rings (1). 3. A highly efficient method of creating electromagnetic unipolar motion according to claim 1, in which the rotation system of the stator magnetic poles consists of at least one electrically conductive jumper (4) rotating together with the rotor (8) and at least one pair of radial current leads (10 and 11), while the electrically conductive jumper (4) with sliding contacts (7) provides electrical contact between the electrically conductive rings (1) and is located in the dimensions of the magnetic pole of the rotor (8) (permanent magnet (2)) of the same polarity, and located in the dimensions magnetic pole of the rotor (8) (permanent magnet (2)) of a different polarity, a radial current lead (10) with a sliding contact (7) to the outer electrically conductive ring (1) and a radial current lead (11) with a sliding contact (7) to the internal electrically conductive ring ( 1) connected to the control circuit (5) and an external power source (6) through a current supply device (12) and ring current collectors (13); in this case, electrically conductive rings (1), an electrically conductive jumper (4) with sliding contacts (7) and radial current leads (10 and 11) with sliding contacts (7) with current in them form opposite magnetic poles of the stator (current circuits). 4. A highly efficient method of creating electromagnetic unipolar motion according to claim 1, in which the system of rotation of the magnetic poles of the stator consists of at least one pair of electrically conductive jumpers (4) rotating together with the rotor (8), which provide electrical contact between electrically conductive rings (1 ) in the dimensions of opposite magnetic poles of the rotor (8) (permanent magnets (2)); in this case, electrically conductive rings (1) and electrically conductive jumpers (4) with sliding contacts (7) with current in them form opposite magnetic poles of the stator (current circuits). 5. A highly efficient method of creating electromagnetic unipolar motion according to claims. 1-4, in which magnetic cores (3) surround the electrically conductive rings (1) of the stator on different sides.