SU1557592A1 - Inductor for multipole magnetization of magnets - Google Patents

Abstract

The invention relates to electrical engineering, namely to devices for multi-pole magnetization. The purpose of the invention is to ensure the identity of the magnetic induction of the poles of a magnetized magnet. In an inductor containing two closed circuits formed by zigzag plates 2-5 and fixed in the dielectric block relative to each other with a gap for accommodating magnet 1, the zigzag plates 2-5 are flat. Each contour is formed by two electrically connected plates 2,3 (4,5), mounted on the dielectric strip 8 (9) on both sides with an angular shift equal to the pole pitch. In particular, one of the plates of each contour can be cut, and a second plate is included in its rupture using jumpers. 1 hp f-ly, 4 ill.

Description

The invention relates to electrical engineering and is intended for reverse magnetization in the axial direction of multipolar ring and disk flat permanent magnets.

The purpose of the invention is the identity of the magnetic induction of the poles of a magnetized magnet.

Fig. 1 shows a specific example of an inductor design; Fig. 2 a magnetizable magnet; in Fig. 3 and 4 - plate of one of the circuits of the inductor.

The inductor consists of two circuits, mounted relative to each other coaxially with a gap to accommodate the magnetized magnet 1. Each circuit consists of flat zigzag plates 2, 3 and 4, 5, mounted in pairs on dielectric. gaskets 6 and 7 with two ctodoh. Plates 2, 3 (as well as plates 4, 5) 'are mounted one relative to the other with an angular shift βί equal to the pole pitch and are electrically connected by two jumpers 8 (plates 4 and 5 are connected respectively by two jumpers 9). The contours end with outputs 10 and 11, which are connected to a power source, and are electrically connected by a jumper 12. Zigzag plates 2-5, jumpers 8, 9, 12 and terminals 10, 11 are made of metal with high electrical conductivity, such as copper. The circuits are fixed in a dielectric block, consisting of two parts 13 and 14, and are pressed to the magnet 1 by a threaded connection 15. The mutual 'angular position of the circuits in the dielectric block is fixed by the guide posts 16. When magnetizing magnets from ferrite having a low electrical conductivity, which or additional isolation of the plates from the magnet is not required. Plates 2, 3 (as well as plates 4, 5) have openings 17-22 intended for fastening the plates to the dielectric block and for installing jumpers or terminals in these places. Plate 3 (5) consists of two parts Z ¹ and Z ⁿ (5 * and 5 ”), separated electrically, and plate 2 (4) is included in its gap $$ by means of two jumpers 8 (9) installed in openings 17, 19 and 18, 20.

Thus, in this specific example of the inductor, all the plates are electrically connected to each other in series, forming a closed electrical circuit: terminal 10, plastic 3 *, jumper 8, plate 2, second jumper 8, plate 3 ^₽ , 'peg jumper 12, plate 5 ^a, a jumper 9, the plate 4, the second web 9, the plate 5 ^th, the output 11. In this zigzag conductive plates arranged parallel to portions of the boundaries between the poles 23, .24 mag15 nit 1 and sequentially cover a conductor pole with each of its three more then a smaller radius of the magnet (in phantom fig.Z and 4 show the largest and smallest radii of the magnet 1 on the projection of the plates), and a con tour of the two plates are shifted from all sides.

The inductor operates as follows.

The flat magnet 1 is inserted into the gap between the circuits from the plates 2, 3 and 4, 5. When the terminals 10 and 11 are connected to the power source, an electric current 3θ · flows from terminal 10 in the direction, for example, clockwise along the zigzag plate 3 ', 8 on the lintel, for plate 2 ·· (counterclockwise) by 25 second crosspiece 8, on the plate 3 ^minutes (clockwise) further by bridge 12, on the plate 5 '(clockwise) at bridge 9 along plate 4 (counterclockwise), along the second jumper 9 and along plate 5 (clockwise) to terminal 11. Learning over the boundaries between the poles 23, 24 of magnet 1, the currents in the plates 3 flow in parallel in one direction, thereby increasing the intensity and concentration of the magnetizing field. The serial connection of the electric circuit of the inductor ensures the passage through the plates of current of the same magnitude, regardless of the cross-section of the conductors.

Parallel connection of the circuits to the power source is also possible, subject to the necessary common-mode connection of the leads. When current is passed through zigzag plates, a bipolar magnetizing field is created in the working gap, which closes through both circuits in axial

1557592 6 in the opposite direction, with the configuration of each pole corresponding to the shape of the inner contour of the conductor by drain. The parasitic magnetic field in the axial direction that each plate creates is compensated by a completely counter similar field of the other plate of each circuit and is generally absent. This statement is true for any connection of circuits to a power source.

When current flows in each closed circuit along a conductive plate, zigzagging each opposite pole 23, or 24 magnets 1 on three sides, and then on another plate, covering the same pole from the previously unexplored side, the magnet poles are magnetized by a completely symmetrical and most concentrated magnetic field, which in the absence of spurious fields provides the same magnitude of induction at all poles.

Claims (2)

1. Inductor for multipolar magnetization of magnets containing The plates are fixed on the two sides of the dielectric with an angular shift equal to the pole pitch, and the pins are connected in such a way that the currents in the plates of each circuit are directed oppositely. 2. The inductor according to claim 1, about 25 and 25, in order to improve the design, one of the plates of each contour is cut and a second plate is inserted into its rupture using jumpers. Plates attached to the dielectric strip on its two sides with an angular shift equal to the pole pitch, with the pins attached so that the currents in the plates of each circuit are directed oppositely. 2. The inductor according to claim 1, in order to improve the design, one of the plates of each circuit is cut and a second plate is inserted into its rupture using jumpers. FIG. 2 17 18 Phie 3 Fy 20 3 ( 22