SU1685271A3 - Single-phase electric motor - Google Patents

Abstract

This invention relates to split-phase single-phase electric motors. SUMMARY OF THE INVENTION: A single-phase electric motor comprises a stator comprising a package of individual stator sheets bonded to each other, a winding disposed on the stator and a rotor. Parts of the stator sheets are copper coated. 3 hp f-ly, 3 ill.

Description

The invention relates to a class of single-phase electric motors with an auxiliary phase, obtained using split poles carrying a short-circuited winding.

Both asynchronous and synchronous designs, for example, hysteresis, electric motors with split shielded poles are known.

Closest to the invention is a single phase motor design with shielded poles.

The main disadvantages of the known electric motors with an auxiliary phase, obtained by means of split poles carrying a short-circuited winding are: small starting and turning moments and, as a result, low efficiency, as well as significant torque pulsations and a tendency to x load. These drawbacks are due to the difficulty of approaching an elliptical rotating magnetic field to a circular and

the impossibility of ensuring a small spatial shift between the split elements of the poles.

The purpose of the invention is to improve the energy performance and manufacturability of the engine.

The goal is achieved by the fact that part of the stator sheets are made with a metallic coating of their surface with a material with low resistance, such as copper, the stator sheets are superimposed on each other so that at least one unshielded sheet is installed between the two shielded stator sheets, and asymmetric the pole pieces of the shielded and unshielded stator sheets are shifted in opposite directions.

In addition, at least part of the unshielded stator sheets are made with a large inner diameter compared to the internal diameter of the shielded stator sheets: the total thickness of the shielded stator sheets is greater than the total thickness of the unshielded stator sheets; screened

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The stator sheets are made of a material with greater magnetic viscosity relative to unshielded stator sheets.

Figure 1 shows the constructive scheme of the engine; figure 2 - section aa in Fig, 1; Fig. 3 shows an embodiment of asymmetric pole tips.

Single-phase electric motor (figure 1) contains a pole-pole stator 1, made in the form of a package of separate stator sheets bonded together, winding 2 and rotor 3. The stator sheets are provided with asymmetric pole tips (H) and are installed as shown in Fig.2 . The shielded stator sheets 4 are fabricated with a metallic coating of their surface with a material with low resistance, such as copper, and unshielded stator sheets 5 are alternately superimposed so that their asymmetric pole pieces (H) are offset in opposite directions.

The thickness of the unshielded sheets, their internal diameter and number may differ from those of shielded stator sheets. So, between two shielded stator sheets can be installed two or more unshielded stator sheets of lesser thickness.

Fig. 3 shows an embodiment of the poles, which allows for a greater spatial shift of the magnetic fluxes between the shielded and unshielded pole tips.

Shielding of individual stator sheets, as well as the ability to control the amount of overlap of shielded and unshielded zones, taking into account the length of asymmetric pole tips, allows achieving much greater phase shift and optimum spatial shift compared to the known technique of short-circuited winding installation, which allows to achieve an elliptical maximum magnetic field to circular with maximum torque and minimum pulse s moment. In addition, the overlap of shielded and unshielded zones can be viewed as creating an asymmetry of the magnetic system due to the configuration of the poles in order to ensure maximum starting torque.

In known single-phase electric motors with split poles

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We use a number of additional measures to improve the shape of the rotating magnetic field and, in particular, increase the air gap under the part of the pole that is not covered by the short-circuit winding. This leads to an increase in the weight and dimensions of the engine. The proposed device makes it possible to solve the same problem without deteriorating the weight and size parameters either by reducing the area of unshielded plates or by increasing their internal diameter.

In addition, it is effective to increase the phase shift of the magnetic fluxes by making shielded sheets of material with high magnetic viscosity.

The proposed single-phase electric motor has higher technical and economic indicators as compared with the known ones, including those with respect to two-phase motors, in which the second phase is connected via a capacitor.

The invention allows to create single-phase motors both asynchronous and synchronous, including hysteresis and torque, the use of which gives a significant economic effect.

Claims (4)

1. Single-phase electric motor containing a laminated stator with pronounced shielded poles, in which the pole elements of each individual stator sheet are supplied with asymmetric pole tips, the stator winding, the rotor, characterized in that, in order to improve energy performance and processability, the stator sheets are made with a metallic coating of their surface with a material with low resistance, for example copper, the stator sheets are superimposed on each other so that between two shielded stator sheets have at least one unshielded sheet installed, with asymmetrical pole pieces of shielded and unshielded stator sheets facing away from the axis of the pole. 2. The motor according to claim 1, from l and h yu and - so that at least part of the unshielded stator sheets are made with a large internal diameter compared to the internal diameter of the shielded stator sheets. 3. The motor according to PP, 1 and 2, of which is the total thickness of the shielded stator sheets more than the total thickness of the unscreened stator sheets. 4. The engine according to claims 1-3, characterized in that the shielded stator The sheets are made of a material with a high magnetic viscosity with respect to unshielded stator sheets. 1 FIG 2