RU2002126001A - MAGNETIC COUPLING - Google Patents

Claims (3)

1. A magnetic coupling containing a first rotor, consisting of two disks, rigidly fastened with respective half shafts and with each other on their periphery, for example, by means of a shell of non-magnetic material, forming the first shaft, the second rotor in the form of a disk of non-magnetic material with mounted on it around the circumference by permanent magnets with magnetization along the axis of the coupling, forming a multipolar magnetic system with alternating polarity of the poles, while the disk of the second rotor is located between the disks of the first rotor at the same m distance from them, magnetically connected with them and rigidly fastened to a second shaft mounted on bearings inside the first shaft, characterized in that it further comprises a stator with bushings for placement on them the bearings of the first and second shafts, consisting of two disks or two flat parts of arbitrary shape from soft magnetic material equidistant from the disk of the second rotor and fastened to each other along their periphery, for example, by means of a shell, with the formation of the clutch housing, to the inner side surfaces of the disks or Gloss parts freeform stator circumferentially attached permanent magnets with the magnetization along the axis of the sleeve forming two separate multipole magnet system with alternating polarity poles and a pole pitch t _1, the permanent magnets of the second rotor are arranged with a pole pitch t _2, the amount of polar steps t ₂ differs from the number of pole steps t ₁ by an integer, the disks of the first rotor consist of each of the outer and inner rings of non-magnetic dielectric material, between which a sieve is mounted formed by plates of soft magnetic material located with a gap relative to each other so that the ratio of the total gap between the plates to the total volume of the plates is in the range of 0.8-1.5, the plates are inserted into grooves made along the rim of each of the inner rings the disks of the first rotor, and in the grooves made along the inner rim of each of the outer rings of the disks of the first rotor, the angle between adjacent plates in their middle part is the same along the perimeter of the lattice, each of the lattices has one or several zones, within which the angle β between each plate and one of the edges of the outer or inner ring of the disks of the first rotor gradually increases from the center of the zone to one of its edges in the range from 90 to 140 ° and gradually decreases in the range from 90 to 40 ° in the opposite direction to the second the edges of the zone with the formation of one or several butt sections, respectively, where the extreme plates at the junction are located at an angle γ to each other of 80 to 100 °, and tg γ / 2 = t ₂ / h, where h is the width of the grating, the grating plates as well as opposite ares stator magnets are mirror images of each other relative to a plane passing through the center of the second rotor disk parallel to its side surfaces. 2. The magnetic coupling according to claim 1, characterized in that the magnetic system of the second rotor is formed by permanent magnets attached to the disk of the second rotor in pairs on both sides of the disk. 3. The magnetic coupling according to any one of claims 1 and 2, characterized in that the plate of the disk grilles of the first rotor are filled with self-curing non-magnetic material, for example, a compound with a dielectric filler, or ceramic material.