SU964863A1 - Induction motor rotor - Google Patents

Description

(54) 1 ROTOR ASYNCHRONOUS MOTOR

 The invention relates to electric machines, in particular, to elements of the Construction of asynchronous motors, and can be used in electric drives with increased requirements to the level of noise and vibrations, as well as to the starting torque.

A two-layered rotor of an asynchronous motor is known, made in the form of a hollow massive cylinder made of ferromagnetic material, mounted on a package of electrical electrical steel and fitted with short-closure rings at the ends, the outer diameter of which is smaller. the outer diameter of the ferromagnetic cylinder by the value of the depth of current penetration into the body of the latter when the QC engine is started.

However, an asynchronous motor with this rotor construction has low energy indices (efficiency and costf) at nominal load, which is caused by high additional losses in the massive ferromagnetic cylinder.

The rotor with a distributed active layer consisting of ferromagnetic and electrically conductive plates insulated from each other, mounted on an edge and fastened along the ends with short-closure rings 2, is closest to the pre-engineered and achieved result.

However, when the rotor rotates, the plates are affected by magnetic tension forces and centrifugal forces, under the action of which radial vibrations arise. This leads to buckling of the plates and the formation of a gap between the winding plates and the core, which impairs the strength of the rotor. In addition, when a magnetic flux flows through the rotor plates between them, there are forces of attraction and repulsion, bending plates in a plane perpendicular to the rotor radius. Thus, this rotor has poor vibroacoustic characteristics and insufficient mechanical strength.

The aim of the invention is to improve the vibroacoustic characteristics and increase the mechanical strength of the rotor.

The goal is achieved by the fact that the plates of the active layer have an angular profile in cross section. Fig. 1 shows a rotor, a continuous section; in fig. 2 is a section A-A in FIG. 1. The rotor of an induction motor contains a shaft 1, on which is reinforced romo 2, made of laminated electrical steel, distributed active layer 3, fastened with shorting rings 4 and a welded ring 5. The distributed active singing consists of insulated ferromagnetic 6 and electrically conducting 7 plates, having a cross section in the corner section. The asynchronous motor with the proposed rotor works as follows. The magnetic flux-stator passes through a magnetic circuit, which consists of paths in the stator, air gaps, the magnetowire of 1 parts of the plates and the rotor's frame. The magnetic flux induces emf not only in the electrically conducting material, but also in the rotor steel itself. Thus, the current of each plate is the sum of the current of conductor and the current of copper conductor. The interaction of the current with the magnetic flux creates an electromagnetic momentum that ensures the rotor is activated, while the plates are affected by the force of the force of the magnetic force. neither the rotor and the stator, caused by the Array and spatial changes of the magnetic field, as well as the strength of the magnetic interaction between the individual plates, due to the flow of currents and the main magnetic flux in it. These forces tend to bend the plastics.

Claims (2)

W. / us in the direction of the magnetic gap, to cause their vibration relative to each other. Since the plates have a shaped profile, and the bends of the plates are made in the cross section of the rotor, they have an increased moment of inertia in the radial and tangential directions. The implementation of a distributed active layer in the form of plates with a cross section having an angular profile allows to improve the vibroacoustic characteristics by reducing the amplitude of their vibrations, as well as to increase the mechanical strength by reducing the buckling of the plates of the active layer. The invention The rotor of an asynchronous engine with a distributed active layer consisting of ferromagnetic and electrically conductive plates insulated from each other, mounted on an edge and fastened at the ends of a short-stroke (Fasakicimk rings, of which there are in order to improve the vibroacoustic characteristics and increase the mechanical strength of the rotor, the plates of the active layer in the cross section have an angular profile. Sources of information taken during examination 1. Examination of the USSR certificate 678593, cl, N 02 K 1/22, 1979. 2. Authors certificate of the USSR 739689, cl. H 02 K 3 / Q6, 1975.