SU866522A1 - Device for checking magnetic parameters of magnetic cores - Google Patents

Description

54) DEVICE OF CONTROL OF AMGNETIC PARAMETERS OF AM, GNITOPROVODOV

Claims (1)

The invention relates to magnetic measurements and is intended to control the magnetic parameters of magnetic circuits. Devices are known for monitoring the magnetic parameters of the magnetic cores, which contain an alternating current source, an ammeter, a magnetizing and measuring windings, and a voltmeter of average Cl values. The disadvantage of these devices for co-controlling magnetic parameters of a magnetic circuit is the difficulty of calculating for various grades of material and sizes of magnetic circuits, and, as a result, the low productivity of monitoring magnetic parameters of magnetic flues. The purpose of the invention is to increase the production rate of the control. This goal is achieved by the fact that the device for controlling the magnetic parameters of the magnetic cores, containing regulating the alternating current source, the magnetizing and measuring windings, current and discharge meters, has been converted to the magnetizing winding of the alternating current converter into the magnetic field intensity connected to the measuring winding variable voltage induction magnet; hIHJ field; and a programmer controlling both converters whose outputs are connected to the inputs, corresponding to gauges. The drawing shows a functional diagram of the device control magnetic parameters of the magnetic circuit. The device for monitoring magnetic parameters of magnetic cores contains adjustments of the alternating current source 1, alternating current converter 2 to the mag- netic field strength, magnetizing winding Sf, magnetic core 4 under test, measuring winding 5, alternating voltage maker 6 to magnetic field induction, programmer) 7, meter 8 intensity magnetic field and meter 9 magnetic field induction. 3c The device operates as follows. The current from the regulated AC source 1 passes through the AC converter 2 to the magnetic field strength and the magnetizing winding 3, creates in the test magnetic core 4 the magnetic field strength, the magnitude of which is controlled by the meter 8 magnetic field strength. At a given magnetic field strength, a movable magnetic flux is created in the test magnetic conductor 4, which induces an emf in the turns of the measuring winding 5, the value of which is proportional to the variable magnetic flux in the test magnetic flux 4. The electromotive force created in the measuring winding 5 is fed to 6 alternating voltage to induction of a magnetic field, the magnitude of which is controlled by the meter. 9 magnetic induction on l. The magnitudes of the strength and induction of the magnetic field in the magnetometer under test 4 are determined by the formulas Ер, Ф 4-f-5.W2S М - the intensity of the magnetic field; 7) - current in the magnetizing winding; number of turns magnetized windings; the length of the magnetic field line of the magnetic circuit; induction magnetic field; EMF, creating a magnetic flux in the measuring winding; frequency of the AC source; - active section of the magnetic circuit; n is the number of turns of the measuring winding; - The magnetic flux created by the magnetizing intensity. . When W, const nWij Con5-t for all sizes of the tested magnetic circuits, -, where K - is a coefficient that depends only on the length of the magnetic field line of the tested magneto-water. Thus, the intensity of the magnetic field created by the current passing through the magnetizing winding from the controlled alternating current source can be determined by an ammeter calibrated to mean 1 x the magnetic field strength. E, de KQ j – j– is the coefficient depending on H. only from the active section of the tested magnetic circuit. Thus, the induction of the magnetic field created by the alternating magnetic flux in the test magnetic circuit at the intersection of the measuring winding, can be determined with a voltmeter calibrated in terms of the magnetic field induction. The coefficients K and K unambiguously characterize the size of the magnetic circuit; therefore, a programmer 7 was inserted into the device controlling the magnetic parameters of the magnetic circuits, controlling the AC converters 2 and 6 to the magnetic field strength and the alternating voltage to induction of the magnetic field, respectively. Thus, the proposed device makes it possible to control the dependence of the induction value of the magnetic field of the magnetic circuit on the magnetic field strength values. In the device, the programmer 7 is designed as a switch of precision resistors that set the values of the coefficients: To an alternating current converter into a magnetic field strength 2 and Krj to an alternating voltage converter 6 into a magnetic field induction. The device allows to control magnetic parameters in direct values of intensity (A / m) and induction (T), excluding the slsek recalculation of magnetic parameters in values of magnetizing current and average value of voltage for a given size of magnetic circuit. Claims The device for monitoring magnetic parameters of magnetic cores, containing p) An adjustable AC source, magnetizing and measuring windings, current and voltage meters, characterized in that, in order to improve the control performance, the connected to an magnetizing winding an alternating current transformer into a magnetic field strength, an alternating voltage transformer connected to the measuring winding into induction of a magnetic field, and a programmer controlling both converters whose outputs are F connected to the inputs of the corresponding gauges. Sources of information taken into account in the examination 1. Kiefer I. I. Testing of ferromagnetic materials. M., Tosenergoizdat, 1962, p. 265-269. L f