CS242636B1 - Apparatus for magnetizing and demagnetizing a permanent magnet member - Google Patents

Abstract

The solution relates to a device for magnetizing and demagnetizing a member with permanent magnets, in particular a member of a rotating electrical machine, provided with a magnetizing body having at least one contact surface, contactable to the magnetically active surface of the member with permanent magnets, and a magnetizing coil for creating magnetizing magnetic poles on the magnetizing body, connectable to a source of electric shock voltage. The purpose is in particular to achieve uniform complete magnetization of given spatial formations of magnetically active surfaces with permanent magnets with the necessary magnetic symmetry. The stated purpose is achieved by the magnetizing body being bounded by a solid contact surface and at least four grooves running along the length of the magnetizing body are formed in its surface area, in which the active sides of the magnetizing coils are placed, the length of the magnetizing body being in the range from 0.4 to 2 times the length of the magnetically active cleaning member with permanent magnets, the tangential dimension of the part of the magnetizing body between the active sides of the same magnetizing coil being at most equal to 0.9 times the spacing distance of the magnetic poles of the member with permanent magnets and the magnetizing coil; They are alternately magnetically oriented in the tangential direction on the magnetizing body.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for magnetizing and demagnetizing a permanent magnet member, in particular a rotating electric machine member having a magnetization body having at least one contact surface contactable to a magnetically active surface of a permanent magnet member. housing, not connectable to electric shock voltage source ·

In a known device of this kind, the magnetizing body is sized to be inserted into the stator bore of an electric rotating machine and is formed as a ferromagnetic core with two opposing pole pieces terminated by contact surfaces for contacting the two magnetically active surfaces of the stator. , the active sides of which lie between the two pole extensions of the raised poles and are spaced from the working air gap of the machine.

This device simplifies the manufacture of electric machines rotating with permanent magnets, since it permits machining of permanent magnets directly in the machine in an unmagnetized state, but can only magnetize the stators of two-pole machines, and moreover, the apparatus is not suitable when non-ferromagnetic material is preferred.

As a magnetizing body for magnetizing permanent magnets of an electric rotary machine, a winding member of its own rotary electric machine is also used. This winding is supported mainly on the rotor for DC electric rotating machines and for AC rotating electric machines mainly

- 2 242 636 on the stator. The winding is connected to a source of electric shock voltage in order to magnetize the permanent magnets. This is advantageous, but it requires connecting an electrical shock voltage source separately to each such member. Furthermore, the magnet can be used for magnetizing permanent magnets only in cases where the geometrical dimensions of the stator and the rotor of the rotating electric machine correspond to one another. If the use of significantly different geometrical dimensions of the stator relative to the rotor of the rotating electric machine is necessary, it is not possible to achieve complete magnetization of the entire volume of the magnetically active part of the magnetic circuit of the rotating electric machine.

The aforementioned drawbacks are eliminated with the magnetising and demagnetizing device of the permanent magnet element according to the invention, characterized in that the magnetizing body is bounded by an integral contact surface and in its surface area at least four grooves running along the length of the magnetizing body are formed. the active sides of the magnetizing coils are placed, the length of the magnetizing body being in the range of 0.4 to 2 times the length of the magnetically active part of the permanent magnet element, the tangential dimension of the magnetizing body part between active sides of the same magnetizing coil is ΙΓΟVen 0 _t Z αχ 0.9 times the pitch of the magnetic poles of the permanent magnet member and the magnetizing coils are alternately magnetically oriented on the magnetizing body in a tangential direction.

Another object of the present invention is that the magnetizing body has a cylindrical shape with a diameter smaller than the diameter of the bore of the permanent magnet member, or the magnetizing body has a cylindrical bore with a diameter larger than the diameter of the cylindrical member of the permanent magnet. flat.

Yet another object of the invention is that the contact surface of the magnetizing body is planar.

Yet another object of the invention is that the grooves are delimited by three planar walls or two planar walls.

- 3 walls enclosing an acute angle. 242 636

Yet another object of the invention is that the magnetizing body is of a magnetically conductive or magnetically non-conductive material.

Yet another object of the invention is that the magnetizing coils form a wave or loop winding.

The device according to the invention achieves a completely uniform magnetization of the said structures of the magnetically active surfaces of the permanent magnet element, whereby in multi-pole electric machines magnetic symmetry is obtained to ensure the considered parameters and the expected operating properties of the machines. By providing grooves in the surface area of the magnetizing body, the active sides of the magnetizing coils are brought close to the magnetized or demagnetized permanent magnets, thereby increasing both the magnetizing and demagnetizing efficiency and the active sides of the magnetizing coils as close as possible to the magnetized or demagnetized permanent magnet. such that the radially magnetized permanent magnet lies between two adjacent active sides and the tangentially magnetized permanent magnet lies with its longitudinal plane of symmetry in the axial plane in which one active side of the magnetizing coil lies.

1 shows a magnetizing body in a cylindrical bore of a magnetically active part of a permanent magnet member, namely a stator of an eight-pole rotating electric machine, in cross-section, FIG. Fig. 2 shows a cross-sectional view of a magnetization body in a pole piece of a four-pole permanent magnet rotary electric machine rotating in a stator yoke, Fig. 3 shows a rotor magnetic circuit of a four-pole permanent magnet rotary electrical machine rotating in a cylindrical bore. 4 shows a cross-sectional view of a magnetization body in a cylindrical bore of a magnetically active part of a permanent magnet member, namely a stator of a six-pole rotary electric machine.

- 4,242,636

The device for magnetizing and demagnetizing the member 8 with permanent magnets 8 is provided with a magnetizing body 8, bounded by a single integral contact surface 8. In the surface area of the magnetizing body 8, at least four grooves 2 are provided extending axially there. 6. The length of the magnetizing body 6 is in the range from 0.4 to 2 times the length of the magnetically active part 2 of the permanent magnet member 8. The tangential dimension of the magnetizing body part 2 between the active sides 4 of the same magnetization coil 6 is at most 0.9 times the pitch of the magnetic poles of the permanent magnet member 8 and the magnetizing coils 6 are alternately magnetically oriented on the magnetizing body 6 in a tangential direction.

1, 2 and 4 # has a cylindrical shape with a diameter smaller than the diameter of the bore of the permanent magnet member 8. The contact surface 4 of the magnetizing body 8 has the shape of a convex cylindrical surface.

The magnetizing body 8 shown in FIG. 3 has a cylindrical bore diameter greater than the diameter of the permanent magnet cylindrical member 8. The contact surface 4 of the magnetizing body 8 has the shape of a concave cylindrical surface.

Advantageously, a flat contact surface 6 can also be formed on the magnetizing body. This magnet body 8 is suitable for magnetizing and demagnetizing planar members 8 with permanent magnets 8 ',

The grooves 4 of the magnetizing body 4 are delimited by three planar perpendicular walls in the embodiment of Figs. 1, 2 and 3, and in the embodiment of Fig. 4 they are bounded by two planar walls forming an acute angle.

1, 2, 3 and 4 may be of a magnetically conductive material but also of a magnetically non-conductive material, i. made of non-metallic material.

The magnetization coils 6 can thus produce both a wave winding and, if necessary, a loop winding.

- 5,242,636

When magnetizing or demagnetizing the permanent magnet element 4 by the device according to the invention, the magnetically active part 4 of the permanent magnet element 8 is temporarily applied to the magnetizing body 1, whose magnetization coils 6 are subjected to an electric shock voltage which creates magnetizing magnetic poles equal to In Fig. 1, the magnetizing body 1 is inserted in a cylindrical bore of the magnetically active part 8 of the magnetic circuit of the stator of the eight-pole electric machine rotating with the permanent magnets 8, wherein the contact surfaces J of the magnet and the starting body 1 are their axial planes are aligned with the axial planes of the magnetic poles of the magnetic circuit of the rotating stator of the electric machine. By applying an electrical shock voltage to the magnetizing coils 6, accommodated in the eight axial grooves 2 of the magnetizing body 16 formed of a magnetically conductive material, eight magnetizing magnetic poles of alternating polarity are formed which the permanent magnets 8 of the member 4 magnetize radially, thereby forming the member 4. eight magnetic poles.

In Fig. 2, the magnetizing body 2 is embedded in the bore of the stator pole pieces 10 of the rotary electric machine serving to concentrate the magnetic flux in the working air gap of the rotary electric machine. Here, the contact surfaces 2 of the magnetizing body 7 are arranged by their axial planes aligned with the axial planes of the magnetic poles of the permanent magnet member 4 mounted in the stator yoke of a four-pole rotary electric machine which magnetize radially when applied. At the same time, additional permanent magnets 11 are located between adjacent pole pieces 10 and serve to concentrate the active magnetic flux in the working air gap of the rotating electric machine and to limit the scattering magnetic flux in the tangential direction, since the additional permanent magnets 11 are offset by the axial planes with respect to the axial planes of the contact surfaces 2 in a tangential direction by half their pitch.

Another possible use of the device according to the invention

6 242 636 is evident with reference to FIG. 3 »wherein the magnetizing body χ has a rotor of a four-pole electric machine rotating with permanent magnets 8 magnetized tangentially * in its cylindrical bore or the axis of the permanent magnets 8 are relative to the axial planes by the active sides X of the magnet coils 6 displaced in the tangential direction by half their pitch.

Fig. 4 shows another possible use of the device according to the invention, wherein the magnetizing body X is mounted in a cylindrical bore of a magnetically active part 2 of Sien χ with permanent magnets 8 of a stator of a six-pole electric machine rotating so that the contact surfaces J of the magnetizing body χ of magnetically nonconductive they are arranged in alignment with the axial planes of the permanent magnets 8 with their axial planes, thereby achieving a magnetization or demagnetization in the radial direction.

By using the device according to the invention, it is possible to magnetize or demagnetize both the individual permanent magnets 8 and their more complex spatial combinations in the magnetically active parts 2 of the permanent magnet member 4, for example in the plane magnetically active part 2 of the χ member. whose parts 2 between the active sides J of the magnetization coils 6 are designed as planar parallel lamellae. The contact surfaces χ of the magnetizing body χ are arranged in one plane, so that they are suitable for application to the plane magnetically active part 2 of the member χ with permanent magnets 8, the magnetizing magnetic poles of alternating polarity being created by applying an electric shock voltage to the magnetizing coils 6. one active side between the parts 2 of the magnetizing body χ. The magnetization coils 6 are arranged in such a way that they are alternately magnetically oriented in the direction of their order.

The device according to the invention is useful for magnetizing or demagnetizing permanent magnets 8 of any kind, in particular ferrite permanent magnets and rare earth permanent magnets. The demagnetization of the permanent magnet member 8 is carried out by the device according to the invention

7 242 636 similar to magnetization, but the magnetization coils 6 are reversed, the best effects of demagnetizing being achieved by gradually reducing the magnitude of the electric shock voltage.

Claims (10)

SUBJECT OF THE INVENTION 242 636 Apparatus for magnetizing and demagnetizing a permanent magnet member, in particular a rotating electric machine member, having a magnetizing body having at least one contact surface contactable to a magnetically active surface of the permanent magnet member and magnetizing coils for forming magnetizing magnetic poles on the magnetizing body, connectable to a source of electric shock voltage, characterized in that the magnetizing body (1) is bounded by an integral contact surface (3) and in its surface area at least four grooves (9) running along the length of the magnetizing body (1) are formed the active sides (7) of the magnetizing coils (6) are arranged, the length of the magnetizing body (1) being in the range of 0.4 to 2 times the length of the magnetically active part (5) of the permanent magnet member (4), tangential dimension of the part (2) a magnetizing body (1) between the active magnetizing body (1) The sides (7) of the same magnetization coil (6) are no ofCh of * e 0.9 times the pitch of the magnetic poles of the permanent magnet member (4) and the magnetization coils (6) are tangential to the magnetizing body (1). alternately magnetically oriented. Device according to claim 1, characterized in that the magnetizing body (1) has a cylinder shape with a diameter smaller than the diameter of the bore (4) of the permanent magnet member (8) and the contact surface (3) is a convex cylindrical surface. Device according to claim 1, characterized in that the magnetizing body (1) has a cylindrical bore with a diameter greater than the diameter of the permanent magnet cylindrical member (4) and the contact surface (3) is a concave cylindrical surface. Device according to claim 1, characterized in that the contact surface (3) is planar. Device according to Claims 1 to 4, characterized in that the grooves (9) are bounded by three planar walls. - 9,242,636 Device according to one of Claims 1 to 4, characterized in that the grooves (9) are bounded by two planar walls forming an acute angle, Device according to Claims 1 to 6, characterized in that the magnetizing body (1) is made of a magnetically conductive material. Device according to Claims 1 to 6, characterized in that the magnetizing body (1) is made of a magnetically non-conductive material. Device according to Claims 1 to 8, characterized in that the magnetizing coils (6) form a wave winding. Device according to Claims 1 to 8, characterized in that the magnetizing coils (6) form a loop winding.