SU1023551A1 - Device for treating electrical machine magnetic circuit plates with magnetic powder - Google Patents

Abstract

DEVICE FOR PROCESSING OF FERROMAGNETIC POWDER PLATES OF THE MAGNETOPRID WATER OF ELECTRICAL MACHINES, containing a frame on which the magnetic system is mounted with a fixed pole tip and MOTOR4 with a pole tip. wounding it to rotate, and limiting the radial movement of the plate being machined, so that, in order to increase productivity by concentrating the ferromagnetic powder in the treatment area and expanding technological capabilities, due to the processing of plates of various designs, it contains magnetic flux concentrators mounted on pole tips and made in the form of discs with radially spaced aI teeth of a wedge-shaped profile on the end surface with opposite direction phenomenon lifting wedge angle on both discs and radial movement limiter treated plate is formed as a sleeve, j mounted on the stationary pole (A nom n.akonechnike.

Description

The invention relates to a process equipment for machining the plates of the magnetic circuits of electrical machines and can be used in the electrical industry. A device is known for processing magnetic plates of electrical machines of electrical machines with a ferromagnetic powder, containing a frame on which a magnetic system with a fixed pole tip and a movable pole piece is mounted. , equipped with a drive for its rotation, and a radial displacement holder for the plate under treatment 1.1. The known device is characterized by low productivity due to insufficient concentration of the ferromagnetic powder in the processing zone of the magnetic core plate and limited technological possibilities of its use, since it can be used to treat the plates with a central hole. The purpose of the invention is to increase the productivity due to the concentration of ferromagnetic powder in the processing zone and expand technological capabilities. The aim is to ensure that a device for treating ferromagnetic powder of magnetic circuit plates of electric machines containing a frame on which a magnetic pole with a neutral pole is mounted. and a movable pole piece, equipped with a drive for its rotation, and a limiter for the radial movement of the plate being machined, contains an end ntratory magnetic flux mounted on the pole pieces and made as a disc with radially arranged teeth wedge-shaped profile on the end of the working surface with an opposite direction of the wedge lifting angle on both disks, and the limiter radial movement machined plate formed as a sleeve mounted on a stationary pole piece. FIG. 1 shows a device; for treating ferromagnetic powder of plates of magnetic circuits of electric machines; in fig. 2 is a sectional view of the Ana FIG. 1. An apparatus for treating ferromagnetic powder of magnetic plates of electric machines comprises a bed 1 on which a magnetic system is mounted including an inductor 2 for generating a magnetic flux, for example an electromagnetic coil, pole pieces 3 and 4 The device also comprises a sleeve 5 of magnetic conductive material mounted on one of the pole pieces, for example, on the bottom, and bounding the treatment area, and when water is used to rotate one of the pole pieces. On the pole pieces 3 and 4 there are mounted magnetic flux concentrators, made in the form of disks 7 and 8 with radially spaced teeth of a wedge-shaped profile, having a lifting angle of within 3-30 along the relative movement of the pole pieces 3 and 4 and the plate 9 of the magnetic circuit. The discs 7 and 8 are located at some distance from the plate 9 for feeding ferromagnetic powder into this gap. FIG. 2 arrows indicate the direction of the speed of movement of the disk 7 and the plate 9 relative to the disk 8. A device for processing ferromagnetic powder plates of the electric machine magnetic circuits works as follows. When electric current is applied to the inductor 2, a magnetic flux is created in the magnetic system of the device, which passes through the magnetic conductor, pole pieces 3 and 4, disks 7 and 8, an air gap between the disks, filled with ferropowder, and plate 9. The magnetic flux density increases on the tops teeth, as well as the edges and burrs of the plate 9. Ferro-powder grains with sharp tops are directed along magnetic power lines to magnetic flux concentrators. When rotating the pole tip 3 ferropowder, adhered to the teeth of the disk 7, also receives rotational motion. The bottom pole tip with disc 8 remains stationary. Ferro-powder, which is in contact with it, also practically remains motionless. It only moves a few along the rotation of the upper disk 7. The plate 9, entrained by the rotating magnetic field, as well as the cutting forces, moves in the direction of rotation of the pole tip 3, but at a slower speed. The ferropowder produces cutting, crashing into the material of the plate 9 under the influence of the forces created by the magnetic field, and the wedging forces that occur during relative movement between the inclined sides of the teeth of the discs 7 and 8 and the surfaces of the plate 9. The edges and burrs of the plate 9, On the edges of the plate around the perimeter are formed by radii of curvature, approximately equal to 0.01-0.05 mm. From the planes of the plate is removed

a small layer of metal, measured in microns.

EFFECT: enhanced productivity of device for processing magnetic core plates.

/ electric machines due to the concentration of the ferromagnet gnus powder in the treatment area and to expand the technological possibilities of its use by treating plates that do not have a central hole.

Claims (1)

DEVICE FOR PROCESSING A FERROMAGNETIC POWDER OF PLATES OF MAGNETIC WIRES OF ELECTRIC MACHINES, containing a bed on which a magnetic system is mounted with a fixed pole tip and under the roller pole tip, equipped with wife drive its rotation, and the limiter of the radial movement of the workpiece, from l and h a-. In addition, in order to increase productivity due to the concentration of ferromagnetic powder in the treatment zone and to expand technological capabilities, by processing plates of various designs, it contains magnetic flux concentrators mounted on pole tips and made in the form of disks with radially spaced teeth of the wedge-shaped profile on the end surface with the opposite direction of the angle of the wedge rise on both disks, and the limiter of the radial movement of the workpiece It is formed as a sleeve mounted on a stationary pole piece KL I