EFFECT OF ROTOR MISALIGNMENT ON MAGNETOELECTRIC VALVE MOTOR PERFORMANCE

DOI: 10.47026/1810-1909-2022-3-35-44

УДК 621.313.10.013-251

ББК З291.53

Aleksandr A. AFANASYEV, Valeriy S. GENIN, Nadezhda N. IVANOVA

Key words

valve motor, magnetic field, magnetic induction, rotor, pulsation, electromagnetic moment

Abstract

A mathematical model of the magnetic field in the working clearance of a magnetoelectric valve motor is presented when the rotor is misaligned relative to the stator axis, which occurs during manufacture, for example, due to defects in bearing panels or during operation due to bearing wear. Using the conformal transformation of an uneven air gap into a uniform (circular ring), a study of the magnetic field in the air gap of the engine was carried out. A case is considered when the section of the air gap with the minimum size is stationary and is associated with a specific place on the surface of the stator boring. The serrature of the stator was taken into account on average using the Carter coefficient. The magnetic field in the inhomogeneous air gap created by the rotor magnets and the current of the stator winding was assumed to be plane-parallel, having a two-dimensional character.

It is obtained that the misalignment of the rotor associated with the rotational motion of the air gap section with a minimum size leads to the appearance of non-sinusoidal EMF and pulsations of electromagnetic moment with a frequency exceeding 3p times the rotational speed of the rotor (p is the number of pairs of poles). With fixed eccentricity, an alternating EMF is induced along the rotor shaft, causing alternating current in the circuit: shaft – bearings – bearing panels – stator housing.

Pulsations of the moment of the electromagnetic moment of the engine are caused by the appearance of mainly the 3^rd and 9^th harmonics, the values of which increase with increasing misalignment according to a law close to linear. The constant component of the electromagnetic moment increases somewhat with increasing misalignment.

References

1. Alekseeva M.M. Mashinnye generatory povyshennoi chastoty [High Frequency Machine Generators]. Leningrad, Energiya Publ., 1967, 344 p.
2. Afanasyev A.A. Analytical Calculation of the Magnetic Field of a Synchronous Machine with an Uneven Air Gap. Russian Electrical Engineering, 2022, vol. 93, no. 7, pp. 467–471.
3. Afanas’ev A.A. Matematicheskoe modelirovanie elektromekhanicheskikh sistem [Mathematical Modeling of Electromechanical Systems]. Cheboksary, Chuvash University Publ., 2020, 274 p.
4. Dvigateli ventil’nye serii 6DVM. Osnovnye tekhnicheskie kharakteristiki [Valve motors series 6DVM. Main technical characteristics]. Available at: https://www.cheaz.ru/assets/images/production/10-ensber/1-electrodvig/2-6-dvm/6dvm.pdf.
5. Ivanov-Smolenskii A.V., Abramkin Yu.V. Primenenie konformnogo preobrazovaniya v elektromashinnykh raschetakh elektricheskikh mashin. Analiticheskie metody [Application of conformal transformation in electric machine calculations of electrical machines. Analytical methods]. Moscow, MEI Publ., 1980, 85 p.
6. Koppenfels W., Stallman F. Praxis der Konformen Abbildung. Berlin u. a., Springer, 1959 (Russ. ed.: Praktika konformnykh otobrazhenii. Moscow, 1963, 407 p.).
7. Polyanin A.D. Spravochnik po lineinym uravneniyam matematicheskoi fiziki [Handbook of Linear Equations of Mathematical Physics]. Moscow, Fizmatlit Publ., 2001, 576 p.

Information about the authors

Aleksandr A. Afanasyev – Doctor of Technical Sciences, Professor, Department of Automation and Control in Technical Systems, Chuvash State University, Russia, Cheboksary (afan39@mail.ru).

Valeriy S. Genin – Doctor of Technical Sciences, Professor, Department of Automation and Control in Technical Systems, Chuvash State University, Russia, Cheboksary (v.s.genin@mail.ru; ORCID: https://orcid.org/0000-0002-9086-0906).

Nadezhda N. Ivanova – Candidate of Technical Sciences, Associate Professor, Department of Mathematical and Hardware Support of Information Systems, Chuvash State University, Russia, Cheboksary (niva_mail@mail.ru; ORCID: https://orcid.org/0000-0001-7130-8588).

For citations

Afanasyev A.A., Genin V.S., Ivanova N.N. EFFECT OF ROTOR MISALIGNMENT ON MAGNETOELECTRIC VALVE MOTOR PERFORMANCE. Vestnik Chuvashskogo universiteta, 2022, no. 3, pp. 35–44. DOI: 10.47026/1810-1909-2022-3-35-44 (in Russian).

Download the full article