CS244773B1 - A method of magnetizing a rotating electric machine with excellent poles and exciting plate-shaped permanent magnets - Google Patents

Abstract

The solution relates to a method of magnetizing a rotating electrical machine with salient poles and excitation by plate-shaped permanent magnets polarized in the direction of their shortest axis, in which first magnets are placed in the planes of the interpole axes of polarity change, second magnets are placed perpendicular to the planes of the magnetic axes of the poles, third magnets are placed in two planes parallel to the planes of the magnetic axes of the poles, and fourth magnets are placed between the inner longitudinal edge of the third magnets and the outer longitudinal edge of the adjacent first magnets, using a cylindrical core placed in the central bore of the machine with coils of the magnetizing winding having axial active sides. The purpose of the invention is to achieve magnetization of all inserted permanent magnets to a state of guaranteed full magnetization. The stated purpose is achieved in that the magnetization of the fourth magnets is carried out independently of the magnetization of the first, second and third magnets, at the latest simultaneously with it, by an additional magnetizing winding inserted into the gaps between the longitudinal edges of the first, third and fourth magnets.

Description

DOHNAL JIRI ing., BRNO

Method of magnetization of an electric rotary machine with excellent poles and excitation by plate-shaped permanent magnets

The present invention relates to a method of magnetizing an electric machine rotating with excited poles and exciting plate-shaped permanent magnets polarized in the direction of their shortest axis, in which the first magnets are located in planes of interpolar axes of polarity. planes parallel to the planes of the magnetic axes of the poles are provided with third magnets and between the inner longitudinal edge of the third magnets and the outer longitudinal edge of the adjacent first magnets are supported by a fourth magnet, by a cylindrical core mounted in the central bore of the machine with magnet coil having axially active sides.

The purpose of the invention is to achieve the magnetization of all inserted permanent magnets to a state of guaranteed full magnetization. This purpose is achieved by magnetizing the fourth magnets independently of the magnetization of the first, second and third magnets at the same time as the additional magnet winding inserted in the gaps between the longitudinal edges of the first, third and fourth magnets.

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BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of magnetizing an electrical machine rotating with excited poles and exciting plate-shaped permanent magnets polarized in the direction of their shortest axis, wherein first permanent magnets are located in planes of interpolar axes of polarity. in the two planes parallel to the planes of the magnetic axes of the poles, third permanent magnets are disposed and a fourth permanent magnet is disposed between the inner longitudinal edge of the third permanent magnets and the outer longitudinal edge of the adjacent first permanent magnets by means of a cylindrical core. having axial active sides »

Rotary electric machines, provided with an exciting permanent magnet to generate active magnetic flux in the working air gap of the machine, are designed such that the permanent magnets are placed either on the rotor, as is usually the case with synchronous electric rotating machines, or placed on the stator as In view of the minimum laboriousness of manufacturing a part of a machine with stored permanent magnets, it is desirable that the permanent magnets be inserted into the machine and magnetized only after the final machining of that part and after removal of the ferromagnetic chips. The method of magnetizing permanent magnets arranged in structural parts of an electric machine rotating with respect to the number of poles in its basic axial, radial or tangential direction is known and the principle of discharging the capacitor battery into the magnetizing is used here.

- 2 244 773 either a winding which is arranged either in a special fixture inserted into the internal or external cavity of the magnetic circuit of a permanent magnet machine component, or this magnet winding directly constitutes the armature winding itself, which is predominantly winding in a DC rotating machine rotor and, in the case of a synchronous electric rotating machine, is mainly represented by the stator winding.

In particularly complicated constructions of permanent magnet excitation systems, none of the known methods of magnetizing permanent magnets directly in a given machine part can be used, especially in the case of the need to magnetize an electric rotating machine with stator excited poles and excitation with plate-shaped permanent magnets polarized in the direction their shortest axes, in which the first permanent magnets are located in the planes of the polaripolar axes of change of polarity, and second permanent magnets are situated perpendicular to the planes of the magnetic axes of the poles, and third permanent magnets are located in two planes parallel to the planes. a fourth permanent magnet is disposed between the inner longitudinal edge of the third permanent magnets and the outer longitudinal edge of the adjacent first permanent magnets. In this type of rotary electric machine, to obtain the desired excitation magnetic flux in the working air gap, the permanent magnets are still magnetized in advance in a magnet coil or other suitable device and inserted into the magnetic circuit of the stator in a magnetized state. This procedure is time-consuming, requires the preparation of a high-purity workplace without ferromagnetic objects, and it is also necessary to carefully mark the polarity of the permanent magnets before inserting them into the magnetic circuit of the machine stator.

The mechanical locking of the permanent magnets is followed by the mechanical machining of this part of the machine to create the necessary working air gap dimension and to ensure the necessary surface treatments of all respective cylindrical surfaces.

Metal chips accumulate on the sharp edges of the magnetic circuit and are very difficult to remove. The use of compressed air is inefficient and for perfect cleaning, it is necessary to proceed to the manual method of collecting chips by means of plastic rubber, plasticine or a similar suitable agent at 3 244 773 ·

Using the magnetization method of the permanent magnets directly in the magnetic circuit of the stator of an electric machine rotating by means of a cylindrical core, embedded in the central bore of the machine with coil magnets having axially active sides, only the first permanent magnets, second permanent magnets and third permanent magnets are perfectly magnetized. · Due to the saturation of the stator's magnetic circuit at the magnetization pulse, the magnetizing flux passes virtually diagonally through the fourth permanent magnet · The magnetic flux component in the direction of the desired magnetization is not sufficient to ensure full magnetization of the fourth permanent magnets. gaps and thus operate the electric machine rotating in the required output parameters ·

The above-mentioned drawbacks are eliminated by the method of magnetization of an electric rotating machine with excited poles and excitation with plate-shaped permanent magnets according to the invention, which is characterized in that the magnetization of the fourth permanent magnets is performed independently of the magnetization of the first permanent magnets. with an additional magnet winding inserted in the gaps between the longitudinal edges of the first permanent magnets, the third permanent magnets and the fourth permanent magnets ·

In particular, the method of magnetization of a rotating electric machine with excited poles and excitation of the plate-like permanent magnets according to the invention achieves full uniform magnetization of the first permanent magnets, second permanent magnets, third permanent magnets as well as fourth permanent magnets. The method of magnetization according to the invention simultaneously eliminates technological disadvantages related to the necessity of inserting pre-magnetized permanent magnets into the magnetic circuit of the stator of the machine, and it will now be possible to process this part of the machine to completion by inserting non-magnetized permanent magnets and after easy chip removal, for example with compressed air, · The advantages of the magnetising method according to the invention therefore also result in a simplification and a significant reduction in the technology of the production of an electric rotating machine and thus in a reduction of the total purchase costs.

The attached drawing shows an exemplary embodiment of a stator of a four-pole electric pole rotating machine with excited poles and excitation with plate-shaped permanent magnets in half cross-section, which shows the bearing of a cylindrical core in the central bore of the machine a method for magnetizing the first permanent magnets, the second permanent magnets, and the third permanent magnets to a full magnetization state, and secondly, two possible instances of placing an additional magnet winding for performing the method of magnetizing the fourth permanent magnets to a full magnetization state of magnetic flux are shown in the picture by common symbols ·

The method of magnetizing an electric machine rotating with excited poles and exciting plate-shaped permanent magnets polarized in the direction of its shortest axis, according to the invention, is carried out by using a cylindrical core 6 mounted in the central bore of the minimum air gap machine. axial active sides, first permanent magnets 2 »located in planes of rhesipol axes 11 of polarity change, second permanent magnets 2 placed perpendicular to the planes of magnetic axes 10 poles, and third permanent magnets 2» placed in two mirror-parallel planes with respective magnetic planes

- 5 244 773 axes of 10 poles. The fourth permanent magnets 2 »located between the inner longitudinal edge of the third permanent magnets 2 ^{and the} outer longitudinal edge of the adjacent first permanent magnets 2» are magnetized to the state of full magnetization by an additional magnet winding 2 »which is inserted into the technological gaps between the longitudinal edges the third permanent magnets 2 ^{and the} fourth permanent magnets 2, wherein the magnetization of the fourth permanent magnets is performed independently of the magnetization of the first permanent magnets 2 of the second permanent magnets 2 and the third permanent magnets 2 before or simultaneously with this magnetization.

As can be seen from the figure in the accompanying drawing, in the first case, the fourth permanent magnets 4 can be magnetized by an additional magnet winding 2 which is inserted into the first gaps 8 between the first permanent magnets 2 ^{and the} fourth permanent magnets. . In the figure, it is indicated by the letters A-B, with no winding at the location of the second gaps 2. there is no winding between the third permanent magnets 2 and the fourth permanent magnets 2. In the second possible case, the fourth permanent magnets 2 can be magnetized by an additional magnet winding 2, which is inserted into the first gaps 8 between the first permanent magnets 2 and the fourth permanent magnets by one side and inserted into the second gaps 2 between the third permanent magnets ^. the fourth permanent magnet 2 ^{at the} longitudinal edges of the same fourth permanent magnet 2 · In the figure it is marked with the letters A-CaD-B. In both possible cases, the additional magnet winding 2 can be designed as a single-winding winding, preferably as an insulated conductive rope, through which the magnetic circuit of the stator of the electric meandering machine is sewn.

In specific cases, however, it is also possible to form the additional magnet winding 2 as separate coils with an electrical connection to each other outside the magnetic circuit of the rotating electric machine. In the case of magnetizing the fourth permanent magnets 2 together with the first permanent magnets 2, the second permanent magnets 2 and the third permanent magnets 2 ^{, the} additional magnet winding 2 is connected in series with the coils of the magnet winding 6 of the cylindrical core 6.

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The magnetization method according to the invention is carried out by two series of magnetizing pulses, preferably consisting of at least two magnetizing current pulses, with a cylindrical core inserted in the central bore of the machine stator with a minimum air gap. The first series of magnetizing pulses is fed to the additional magnet winding X, thereby mainly magnetizing the fourth permanent magnets 6, but also the second permanent magnets 2 to the state of full magnetization, the third permanent magnets being magnetized partly with correct magnetic flux polarity and the first permanent magnets. 1, there is a partial magnetization with opposite polarity, which, however, is very insignificant due to the minimum air gap between the cylindrical core 2 and the central bore of the machine stator.

A second series of magnetizing pulses is fed to the coils of the magnet winding 6 of the cylindrical core 2, preferably made of ferromagnetic material, whereby the first permanent magnets χ are magnetized to a fully magnetized state with correct polarity, promoting polarity of the previously magnetized second permanent magnets 2 and fourth permanent magnets. 4 and the third permanent magnet χ is magnetized to the state of full magnetization.

Depending on the shape and size of the inserted permanent magnets and the magnitude of the magnetizing energy stored in the capacitor battery, the magnetization is carried out in succession by the cell or is performed simultaneously by connecting the magnet coil 6 of the cylindrical core χ and the additional magnet coil χ electrically and magnetically.

After the magnetization method according to the invention has been completed, the cylindrical core χ with the magnet winding δ is removed from the central bore of the machine and the additional magnet winding χ is removed as well, but in justified cases it can be left in the machine.

Claims (4)

SUBJECT OF THE INVENTION 244 773 1 »Method of magnetization of an electric machine rotating with excited poles and exciting plate-shaped permanent magnets polarized in the direction of their shortest axis, in which the first permanent magnets are located in the planes of the interpolar axes of polarity change; two planes parallel to the planes of the magnetic axes of the poles receive third permanent magnets and between the inner longitudinal edge of the third permanent magnets and the outer longitudinal edge of the adjacent first permanent magnets the fourth permanent magnets are mounted by a cylindrical core mounted in the central bore of the machine axial active side, characterized in that the magnetization of the fourth permanent magnets is performed independently of the magnetization of the first permanent magnets, the second permanent magnets and the third one Later, the magnets are inserted into the gaps between the longitudinal edges of the first permanent magnets, the third permanent magnets and the fourth permanent magnets. Method according to claim 1, characterized in that the fourth permanent magnets are magnetized by an additional magnet winding inserted into the first gaps between the first permanent magnets and the fourth permanent magnets coaxially with the respective magnetic axis of the pole. 3. The method of claim 1 wherein the fourth perpetual magnets are magnetized by an additional magnet winding inserted into the first gaps between the first permanent magnets and the fourth permanent magnets and into the second gaps between the third permanent magnets and the fourth permanent magnets at the longitudinal edges of the same. the fourth permanent magnet. 244 773 Method according to one of Claims 1 to 3, characterized in that the magnetization of the fourth permanent magnets is carried out by a single-threaded additional magnet winding common to all the poles of the machine, preferably by an insulated conductive rope through which the machine is meandered Method according to one of Claims 1 to 4, characterized in that, when magnetizing the fourth permanent magnets, the additional magnet winding is connected in series with the coils of the magnet winding.