SU936225A1 - End-face electric machine - Google Patents

Description

The invention relates to electrical engineering, in particular to face asynchronous machines, and can be used to drive various mechanisms, such as fans.

Known face asynchronous machines containing the stator and rotor magnetic cores with the frames and windings, in the toothed zone 1.

The outer and inner surfaces of the rotor hub and the corresponding surface of the stator hub in such machines are equally spaced from the longitudinal axis of the machine, i.e. The average diameters of the ray of the magnetic circuits of the stator and the rotor are equal. This causes an increase in the magnetic flux closure in the rotor and the deterioration in the use of the electromagnetic volume of the rotor, resulting in an increase in the no-load current, mass and moment of inertia of the rotor and degraded energy performance of the machine.

Also known is the design of an end electrical machine, comprising a winding and stator and rotor magnetic cores consisting of dentate zones with end surfaces opposite each other, and rem (2.

In this construction, the stator magnetic core through the protrusions on the outer surface of the tooth zone forms an enlarged surface of the tooth zone end, which leads to a decrease in magnetic induction in the air gap and a decrease in magnetic current without increasing the electromagnetic magnitude of the stator.

However, the average rotor diameter of such a mini-gun exceeds the average rm diameter of the stator, which significantly impairs the use of the electromagnetic volume of the rotor and worsens the energy and mass-dimensional characteristics-. In addition, with an increase in the average rotor diameter, the eccentricity and amplitude of air gap oscillations from manufacturing errors and backlash in bearings increase, unbalance and gyroscopic moment are more pronounced when working in roll and trim conditions, in particular, occurring during operation on vessels that worsens vibroacoustic characteristics and reliability of the machine.

Claims (3)

The purpose of the invention is to improve the physical and mass-dimensional characteristics of the front electric machine. This goal is achieved by the fact that in the end electric machine containing the winding and the magnetic cores of the stator and rotor, consisting of the tooth zones, the end surfaces of which are opposite each other and the rem, the outer and inner rotor rotor surfaces are offset from the outer and inner stator frame surfaces towards the longitudinal axis of the machine. At the same time, the outer and inner surfaces of the rotor's toothed zone can be made conical, and at the same time or separately, protrusions can be located on the outer surface of the rotor's toothed zone and on the inner surface of the toothed stator zone. The proposed machine design makes it possible to reduce the average rotor diameter of the rotor, which leads to a decrease in the closure length of the magnetic flux lines, the mass and the moment of inertia of the rotor and to improve its characteristics. Fig. 1 shows the structure of an end asynchronous machine with a conical surface of a rotor, a cut in Fig. 2 - the same, with protrusions. The machine structure contains a stat r1 and a rotor 2 located in the casing 3. The stator 1 and the rotor 2 contain a magnetic conductor consisting of the toothed zones 4 and 5 of a magnet-dielectric with closely-dimensioned end surfaces b and 7 opposite each other, and stranded steel rem 8 and 9 of the stator 1 and the rotor 2, as well as the winding 10 and the squirrel cage 11. The outer 12 and inner 13 of the surface 9 of the rotor 9 of the rotor 2 are offset relative to the outer 14 and inner 15 of the surface of the rome 8 of the stator 1 towards the longitudinal axis of the machine . In the machine shown in FIG. The outer 16 and inner 17 surfaces of the toothed zone 5 of the rotor 2 are made conical, and in the machine shown in Fig. 2, on the outer surface 16 of the toothed zone 5 of the rotor 2 and the inner surface 17 of the toothed zone 4 of the stator 1 are lugs 18. Offset surfaces can be performed along with the simultaneous combination of the mentioned conical surfaces and protrusions in the dentate zone. When the machine is in operation, the magnetic flux created by the winding 10 of the stator 1 closes through the rotor 9 of the rotor 2. Since the outer 12 and inner 13 of the surface of the rome 9 of the rotor 2 are displaced relative to the outer G4 and the inner 15 of the rome 8 of the stator 1 towards the longitudinal axis of the machine. This also reduces the average length (- ARC Dies average diameter of the roma 9 of the rotor 2) of the magnetic flux closure f in the frame 9 of the rotor 2 without reducing its cross section Zdr determined by the value of induction Vdd in the frame 9 of the rotor 2 (5dkgf / 2Vdk). The decrease in%; p leads to a decrease in the magnetizing force RdSRdc Cf p) and a decrease in the no-load current. The decrease in no-load current leads to an increase in cos x and efficiency. With this, approximately ds. (where RSC is the average diameter of the stator rom) the mass and the moment of inertia of the rotor are reduced by times. Thus, the displacement of the outer and inner surfaces of the rotor hub relative to the outer and inner surfaces of the stator hub towards the longitudinal axis of the machine is by making the outer and inner surfaces of the toothed area of the rotor conical and (or) by positioning the outer surface of the toothed area of the rotor and the inner surface of the toothed areas the protrusion stator allows to reduce the average diameter of the rotor rotor and, due to the shorter length of the magnetic field lines, to reduce the magnetizing current, mass and torque. rtsii of the end of the asynchronous machine. The implementation of the proposed invention allows a 2-5% improvement in energy performance and a 820% reduction in the mass and moment of inertia of the following: asynchronous asynchronous machines compared to, for example, electric motor / I and type DAT for the PR series centrifugal fans. dust protection equipment. Claim 1. Electrical end machine comprising a winding and stator and rotor magnetic cores each of which has a toothed zone and a rod, with the end surfaces of the toothed zones of said magnetic cores opposite each other, and the outer surfaces of the belts are offset from; each other, characterized in that, in order to improve the energy and masses dimensions, the outer and inner surfaces of the rotor frame are offset relative to the outer and inner surfaces of the stator frame towards the longitudinal axis of the machine. 2. The machine pop, 1, is distinguished by the fact that the outer and inner surfaces of the tooth-like zone of the rotor are made conical. 3. The machine according to claims 1 and 2, characterized in that on the outer surface of the toothed zone of the rotor and on the inner surface