PL127489B2 - Method of and apparatus for measuring power losses in ferromagnetic materials being overmagnetized in circumferential direction - Google Patents

Description

The subject of the invention is a method and device for measuring power losses in rotationally magnetised ferromagnetic materials, especially ring-shaped ferromagnetic materials. The methods and devices known to date for measuring power losses in rotationally magnetised ferromagnetic materials relate to the measurement of power losses in ferromagnets in the form of discs. Ferromagnetic discs are not widely used in practice, where there is often a problem of power losses in parts of the magnetic circuits of electric rotating machines, and especially in the yoke parts of the magnetic circuits of these machines, related to the problem of power losses in ring-shaped ferromagnetic materials. The method and device according to the invention solves the problem of measuring power losses in ferromagnets in the shape of a rotatably magnetized ring. The method of measuring power losses in ferromagnets in the shape of a rotational magnetized ring according to the invention consists in measuring twice the power consumed by the driving motor that puts it in motion. rotational test of a ferromagnetic sample, once for the sample remagnetization state, the second time in the absence of re-magnetization of the sample, then the value of the power losses in the ferromagnetic sample is calculated as the difference of the power values from both measurements. Device for measuring power losses in ferromagnetics in the shape of a rotatably magnetized ring According to the invention, it is a cylindrical housing with a set of magnetizing windings attached to its internal walls, in the axis of which a drive shaft connected to the motor is mounted, with a non-magnetic sleeve embedded in a ferromagnetic ring sample. The engine is connected in a known power measuring system. The device is also equipped with a measuring winding mounted on the sample, the outputs of which, placed in a through hole in the drive shaft, are connected with slip rings mounted on the drive shaft and connected to a rectifier voltmeter. The ferromagnetic test with a wound nanometer winding mounted on a non-magnetic sleeve is introduced into rotation by means of a motor ensuring the required frequency of magnetization of the sample, and at the same time a set of magnetizing windings is supplied with a direct current, whereby the current value is regulated in this way so that the readings of the voltmeter connected to the slip rings were equal to the average value of the electromotive force induced in the measuring winding, calculated for the assumed induction in the sample. Under these conditions, the power consumed by the motor is measured, and after the magnetizing winding set is turned off, the motor power is re-measured. The value of the power loss in the ferromagnetic sample is calculated as the difference in the power values from both measurements. The device according to the invention is shown in the example in the drawing, in which fig. 1 shows the device in longitudinal section, and fig. 1. The device is a housing 1 with a set of magnetizing windings 2 attached to its internal walls, in the axis of which a drive shaft 3 is mounted, connected with a motor 4, connected in a known system for measuring power. Mounted on the drive shaft 3 is a non-magnetic sleeve 5 for fixing a ferromagnetic ring sample 6. Moreover, the device is equipped with a measuring winding 7 mounted on a sample 6, the leads of which, placed in a through hole 8 made in the drive shaft 3, are connected with slip rings. 9 mounted on the drive shaft 3 and connected with a rectifier voltmeter 10. Ferromagnetic sample 6 with a nanosizing winding 7, mounted on a non-magnetic sleeve 5, is set by means of a motor 4 ensuring the required frequency of magnetization of the sample 6 into rotational motion and simultaneously supplied with current fixed set of magnetizing windings 2. The value of the current supplying the set of windings 2 is adjusted so that the indications of the voltmeter 10 connected with the slip rings 9 are equal to the average value of the electromotive force induced in the measuring winding 7, calculated for the assumed induction in the sample 6. Under these conditions the mo is measured power consumed by the driving motor 4, and after turning off the power supply of the magnetizing winding group 2, the power consumed by the driving motor 4 is repeatedly measured. The value of the power losses in sample 6 is calculated as the difference of the power values from both measurements. power in rotationally magnetized ferromagnets, especially ring-shaped ferromagnets, characterized by the fact that the power absorbed by the motor (4) rotating the investigated ferromagnetic sample (6) is measured twice, once for the state of magnetization of the sample (6) the second time in the absence of magnetization of the sample (6), then the value of the power loss in the ferromagnetic is calculated as the difference in the power values from both measurements. 2. Device for measuring power losses in rotational magnetized ferromagnets, especially ring-shaped ferromagnets, characterized by the fact that it is a cylindrical housing (1) with a set of magnetizing windings (2) attached to its internal walls, in the axis of which it is mounted, connected to the motor (4), connected in a known power measurement system, the drive shaft (3) with a non-magnetic sleeve (5) embedded in a ferromagnetic ring (6), and a measuring winding (7) is attached to the sample (6). The main outputs placed in the through hole (8) in the drive shaft (3) are connected to the slip rings (9) also mounted on the drive shaft (3) f connected to the rectifier voltmeter (10). 127 489 cr EN

Claims (2)

Claims 1. The method of measuring power losses in rotationally magnetized ferromagnets, especially in ring-shaped ferromagnets, characterized by the fact that the power consumed by the motor (4) rotating the tested ferromagnetic sample (6) is measured twice for the state of remagnetization of the sample (6), the second time in the absence of remagnetization of the sample (6), then the value of the power losses in the ferromagnetic material is calculated as the difference of the power values from both measurements. 2. Device for measuring power losses in rotational magnetized ferromagnets, especially ring-shaped ferromagnets, characterized by the fact that it is a cylindrical housing (1) with a set of magnetizing windings (2) attached to its internal walls, in the axis of which it is mounted, connected to the motor (4), connected in a known power measurement system, the drive shaft (3) with a non-magnetic sleeve (5) embedded in a ferromagnetic ring (6), and a measuring winding (7) is attached to the sample (6). The main outputs placed in the through hole (8) in the drive shaft (3) are connected to the slip rings (9) also mounted on the drive shaft (3) f connected to the rectifier voltmeter (10). 127 489 cr EN