RU2610139C1 - Method for magnetic drive production - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention refers to magnetic cores manufacturing technology. The driven wheel is made of non-magnetic material in the form of a disk with a central opening wherea steel axis is fixed and a uniforml spaced blind holes on the outer cylindrical surface of the disc, where pre-fabricated permanent magnets with axial magnetization and alternating magnetic poles are fixed. Pre-fabricated non-magnetic rings of different external diameters or a non-magnetic bushing with a variable outer diameter are installed on the steel drive shaft in accordance with the radius of the driven wheel surface providing a uniform contact with the driven disk with magnets with a selected clearance. The outer cylindrical surface of each ring or sleeve contain an even number of blind holes located along the circumference where pre-fabricated permanent magnets with axial magnetization and alternating magnetic poles are placed and fixed. The driven wheel and the drive shaft are mounted in the same plane and at a distance from each other, providing interaction between the permanent magnets interaction, sufficient to bring the driven wheel into rotation with a maximum force of interaction with the drive shaft.

EFFECT: production of magnetic cores, expanding the operational capabilities by increasing the number of magnets interacting one after another.

3 dwg

Description

The invention relates to electrical engineering, in particular to a technology for manufacturing permanent magnet drives.

A known method of manufacturing a magnetic drive, including the manufacturing technology of the drive shaft with a pulley, in the body of which are placed alternating polarity permanent magnets, one of the poles of each of which goes onto the cylindrical surface of the pulley, and a manufacturing technology of a flywheel, in the body of which permanent magnets are placed with alternating polarity , one of the poles of each of which extends to the cylindrical surface of the flywheel, while the pulley and flywheel are mounted in the same plane with the possibility of magnetic -interaction with one another of their permanent magnets are mounted at an angle to the cylindrical surfaces forming a pulley and a flywheel (see. the description of the invention to the certificate of authorship USSR №591934, IPC G11B 15/18, publication, the 19/01/1973).

A disadvantage of the known technology is the small number of magnets that interact alternately among themselves, which reduces the force of interaction of the drive magnets. The closest analogue was not found.

The objective of the claimed invention is to increase the interaction force of the drive magnets.

The essence of the claimed invention is as follows. A method of manufacturing a magnetic drive is characterized in that the driven wheel is made of non-magnetic material in the form of a disk with a central hole in which the steel axis is fixed, and with blind holes uniformly made on the outer cylindrical surface of the disk, in which permanent magnets made of magnetic material are fixed with axial magnetization and alternating their magnetic poles, a drive shaft is made of steel, onto which a prefabricated non-magnetic ma terial of a ring of different external diameter or a sleeve of non-magnetic material having a varying external diameter in accordance with the radius of the surface of the driven wheel, which provides uniform fit to the driven disk with magnets with a selected gap, while on each ring or sleeve around the circumference on the outer cylindrical surface an even number of uniformly removed blind holes into which axial magnet permanent magnets pre-made from magnetic material are placed and fixed By means of alternating and alternating their magnetic poles, the driven wheel and the drive shaft are installed in the same plane and at a distance from each other so that there is a magnetic interaction between their permanent magnets that is sufficient to bring the driven wheel into rotation with maximum force of interaction with the drive shaft . This method can significantly increase the number of interacting magnets and increase the force of interaction of the drive shaft with the wheel.

The essence of the claimed invention is illustrated by drawings, where in FIG. 1, 2, 3 shows a magnetic drive manufactured by the claimed method.

In the drawings, the following notation:

1 - driven wheel

2 - permanent magnets driven wheel

3 - an axis of a conducted wheel

4 - drive shaft

5 - rings of a power shaft

6 - permanent magnets of the drive shaft

7 - drive shaft axis

8 - sleeve with magnets of the drive shaft

9 - elongated sleeve with magnets of the drive shaft

10 - changing diameter.

A method of manufacturing a magnetic drive is as follows.

The driven wheel 1 is made of a non-magnetic material with drilled deaf blind equidistant holes in an even number for mounting permanent axially magnetized magnets 2 and a hole for the shaft of its axis 3, the magnets 2 are fixed, alternating between the poles, and the assembled disk is fixed on the shaft of the axis of rotation 3 in any known manner, after which the shaft of the driven wheel is installed and fixed on the rotation bearings. The drive shaft 4 is also made and the rings 5 of FIG. 1 with drilled equidistant and in the same even number on each ring holes for magnets and axially magnetized magnets fixed in them, alternating between the poles, or sleeve 8 of FIG. 2, or sleeve 9 of FIG. 3 with holes evenly drilled in rows and in the same even number in each row and axially magnetized magnets fixed in them, alternating between the poles, after which the drive shaft is fixed to the axis of rotation 7 through rotation bearings.

A positive technical result is a significant increase in the number of alternately interacting magnets.

Claims (1)

A method of manufacturing a magnetic drive, characterized in that the driven wheel is made of non-magnetic material in the form of a disk with a central hole in which the steel axis is fixed, and with blind holes uniformly made on the outer cylindrical surface of the disk, in which permanent magnets made of magnetic material are fixed with axial magnetization and alternating their magnetic poles, a drive shaft is made of steel, onto which previously made of non-magnetic are fixed ring material of different external diameters or a sleeve of non-magnetic material having a varying external diameter in accordance with the radius of the surface of the driven wheel, which provides uniform fit to the driven disk with magnets with a specified gap, while on each ring or sleeve on the outer cylindrical surface an even number of blind holes in which permanent magnets with axial magnetization and pre-made from magnetic material are placed and fixed alternating their magnetic poles, the driven wheel and the drive shaft are installed in the same plane and at a distance from each other so that there is a magnetic interaction between their permanent magnets that is sufficient to bring the driven wheel into rotation with a maximum force of interaction with the drive shaft.

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