SU966758A1 - Inductor for magnetizing permanent magnets - Google Patents

Description

The invention relates to electrical engineering, in particular, to devices that provide the creation of magnetic fields of a given configuration during the magnetization of permanent magnets.

It is known that the magnetization of ring permanent magnets in the azimuthal direction is carried out using a single conductor with a current located along the axis of the internal opening of the magnetized magnet [1].

The disadvantage of this device is the large energy intensity, uneven magnetization of magnets in volume, and the impossibility of reversing magnetization of solid ring magnets in the azimuthal direction. Namagnychiva-. The use of ring magnets by sectors with subsequent gluing leads to an increase in labor input and energy intensity, while ring magnets turn out to be inhomogeneous due to different sizes in the parameters of separately made sectors.

Closest to the technical nature of the invention is an inductor for magnetizing permanent magnets made of a solid conductive plate with high electrical conductivity. The plate forms a closed loop and is fixed in a dielectric block, and the plate is bent so that it has the ability to cover the side surfaces of the magnet with its inner surface [2]. . I; ' ''

A disadvantage of the known inductor is the inability to magnetize ring permanent magnets in the azimuthal direction.

The subject of the invention is the production of reversibly magnetized annular permanent magnets along two eons in the azimuthal direction, while simplifying production technology and increasing labor productivity and the quality of magnets.

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This goal is achieved by the fact that in the inductor containing a coil made in the form of a plate of a material with high electrical conductivity and fixed in an insulator block, and outputs 5, two cuts are made in the coil at the boundaries of the magnetization zones, dividing the coil into two parts, which are connected to each other on one side and connected to the terminals on the other hand, while to the coil has a shape that repeats the shape of the outer side surface of a magnetized ring magnet.

In addition, the inductor can be equipped with an additional coil, having a configuration similar to the configuration of the first coil, located inside it with a gap for accommodating an annular magnetizable magnet in it, and the profile of the outer side surface of the additional coil q repeats the profile of the inner surface of the magnetizable ring magnet, the conclusions of the additional turn are located on the opposite side from the conclusions of the first turn and are inserted through the slot in the first turn.

In FIG. Figures 1 and 2 show inductor options.

'' The inductor (Fig. 1) contains a coil 1 formed by a curved plate, which covers the outer side surface of the magnetized ring magnet 2 ₍ in which two cuts 3 are made, located at the boundaries of the magnetization zones. The resulting two parts of the plate on the front side have a connection , and on the opposite side are connected to pins 5.

For ring magnets reversible in two azimuthal directions in the azimuthal direction of sufficiently large sizes, the inductor contains an additional turn 6 (Fig. 2), which is located inside the first turn and forms a working gap with it 7 To accommodate a magnetizable magnet in ^{45 of} it. An additional internal coil is also made with two cuts located at the boundaries of the magnetization zones, and has a connection on the front side. The inner ⁵⁰ turn is inserted into the outer turn so that the conclusions 8 of the inner turn are located on the opposite side from the conclusions of the outer turn and are led out through a slot in the outer turn.

The inductor operates as follows.

A sample 2 of magnetically hard material in the form of a ring is introduced into the coil or into the space between two turns, which is the working zone of the inductor). From the source of the current through the current leads 5 (or 5 and 8), the current flows through the inductor in such a way that an azimuthal magnetic field is created in the working zone of the inductor. In this case, a sample of magnetically hard material is magnetized in the azimuthal direction along zones with alternating polarity. By changing the polarity of the current flowing through the inductor, the magnets can be partially demagnetized or remagnetized.

Compared with the prototype, this inductor allows you to magnetically reverse two zones of ring magnets in the azimuthal direction at each point of the volume of the magnet, as well as magnetize ring magnets of a rather complex shape, to obtain magnetization zones of various sizes.

Claims (2)

(54) INDUCTOR FOR MAGNETIZING CONSTANT MAGNETS The invention relates to electrical engineering, in particular, to devices that provide for the creation of magnetic fields given by confinging upon magnetization of permanent magnets. -. It is known that the magnetization of the annular permanent magnets in the azimuthal direction is performed using a single conductor with a current located along the axis of the inner hole of the magnetized magnet 1}. The disadvantage of such a device is its high power consumption, the non-uniformity of magnetization of the magnets by volume, as well as the impossibility of reversing the magnetization of solid ring magnets in the azimuthal direction. The magnetization of the ring magnets in sectors with a D gluing leads to further labor and energy, which, in this case, the seam magnets are non-uniform different in parameter 1X of separately manufactured sectors. The closest in technical sui to the invention is an inductor for magnetizing permanent magnets, made of solid wire necks of a plate with high electrical conductivity. The plate forms a closed loop and Wakreppen in the dielectric block, and the plate is bent so that its internal surface can cover the side surfaces of the magnetically disadvantageous 11 inductor is the impossibility of maternity of the maternal magnetism in the azimuthal direction. in the azimuthal direction of the annular constant magnetic waves prn, simplified rexHonortm production and higher productivity of labor in the quality of magnesium Comrade The supplied circuit is achieved by using an inductor containing a coil made in a plate of a material of high electrical conductivity and fixed in a dielectric block, and outputs in a coil made two cuts at the boundaries of the magnetization zones, dividing the coil into two parts The sides are connected to each other, and on the other hand, they are connected to the leads, while the coil has a shape that repeats the shape of the outer side surface of the magnetized ring magnet. In addition, the inductor can be. provided with an additional coil having a configuration similar to that of the first coil, located inside the neglige with a gap to accommodate an annular magnetized magnet, the profile of the outer side surface of the additional coil repeats the profile of the inner surface of the magnetizable ring magnet, the conclusions of the additional coil are located on the opposite side of conclusions of the first turn and skipped through the slot in the first turn. FIG. 1 and 2 are variants of the inductor. The inductor (Fig. 1) contains a coil 1, formed by a curved plate, which covers the outside side of the magnetized ring magnet 2 in which cut section 3 is made, located at the boundaries of the magnetization zones. The resulting two parts of the plate on the end side have a connection between them, and on the opposite side are connected to conclusions 5. For reversing the two magnetization zones in the azimuthal direction of the ring magnets of sufficiently large dimensions, the inductor contains an additional coil 6 (Fig. 2), which is located inside the first turn and forms with it a working gap 7 for placing a magnetized magnet in it. An additional inner coil is also made with two cuts located at the boundaries of the magnetization zones, and has a connection on the front side. The inner coil is inserted into the outer coil in such a way that the pins 8 of the inner coil are located on the opposite side of the outer coil pins and are pulled out through the slot in the outer coil. The inductor operates as follows. A sample of a magnetically hard material in the form of a ring is inserted inside the coil (or into the space between the two coils, which is the working area of the inductor). From the source (: current through the current leads 5 (or 5 and 8), the current flows through the inductor in such a way that an azimuthal magnetic field is created in the inductor's working zone. At the same time, a sample of a hard magnetic material is magnetized i in the azimuthal direction in alternating polarity zones. Men polarity of the flow of current through the inductor, the magnets can be partially demagnetized or remagnetized. Compared with the prototype, this inductor allows reverse zones of magnets to be magnetized in the azimuthal direction in each ton The magnet magnitude and magnetizing ring magnets of a rather complex shape produce magnetization zones of various sizes. Formulation 1. An inductor for magnetizing permanent magnets containing a coil formed in a plate made of a material with high electrical conductivity and fixed in a dielectric block and magnet. , characterized in that, in order to obtain reversibly magnetized in two zones in the azimuthal direction of the ring permanent magnets while simplifying the production technology and increasing productivity, the coil has two cuts at the boundaries of the magnetization zones, dividing the coil, into two parts that are connected on one side and connected to the viewport on the other, while the coil has a shape that repeats the shape of the outer side surface of the magnetized ring magnet. 2. The inductor according to claim 1, in connection with the fact that, in order to demonstrate the efficiency and quality of magnetization, it is equipped with an additional coil having a configuration similar to that of the first coil located inside it with a clearance for placing an annular magnetized magnet in it, the profile of the outer side surface of the additional coil repeating the profile of the internal surface of the magnetizable ring magnet, the additional coils of the additional coil