The present invention discloses a thermal protection device for a single-phase dual-voltage motor, comprising a motor winding, a small-current thermal protector, a large-current thermal protector, wherein the motor winding comprises a main phase winding or comprises a main phase winding and a secondary phase winding, the main phase winding is divided into two portions comprising a first main phase winding and a second main phase winding. According to the above description, in the present invention, two different large and small thermal protectors are used to implement a thermal protection function at different voltages for the single-phase dual-voltage motor by means of an appropriate connection of the circuit, and both use of the protector that can be bound on the stator coil and adoption of a solution in which the slide switch substitutes for the conventional relay significantly reduce the cost and shorten the delivery time, thereby improving the product competitiveness.

The present invention discloses a thermal protection device for a single-phase dual-voltage motor, comprising a motor winding, a small-current thermal protector, a large-current thermal protector, wherein the motor winding comprises a main phase winding or comprises a main phase winding and a secondary phase winding, the main phase winding is divided into two portions comprising a first main phase winding and a second main phase winding. According to the above description, in the present invention, two different large and small thermal protectors are used to implement a thermal protection function at different voltages for the single-phase dual-voltage motor by means of an appropriate connection of the circuit, and both use of the protector that can be bound on the stator coil and adoption of a solution in which the slide switch substitutes for the conventional relay significantly reduce the cost and shorten the delivery time, thereby improving the product competitiveness.

The present invention refers to a shaded-pole single-phase motor convertible into a permanent magnet motor of the type that comprises a front casing, a stator element, a rotor element, a plurality of windings placed over the protruding poles of the stator element, and a rear casing, wherein the stator element presents a square-shape configuration with the four protruding poles rotated 45? relative to the horizontal and vertical symmetry axes in order to be aligned with the four corners of the stator element. The stator new configuration enables optimizing the use of lamination material during manufacturing and assembling the sheet packages of the stator element and rotor element; furthermore, the protruding poles, by being rotated 45? in the stator element, enable a reduction of electric losses in its windings and a decrease in the operative temperature of both the stator element and the rotor element, which enables an increase of the motor operation efficiency. Similarly, the reduction of the operative temperature of the stator element allows the use of plastic materials for its components.

The present invention refers to a shaded-pole single-phase motor convertible into a permanent magnet motor of the type that comprises a front casing, a stator element, a rotor element, a plurality of windings placed over the protruding poles of the stator element, and a rear casing, wherein the stator element presents a square-shape configuration with the four protruding poles rotated 45? relative to the horizontal and vertical symmetry axes in order to be aligned with the four corners of the stator element. The stator new configuration enables optimizing the use of lamination material during manufacturing and assembling the sheet packages of the stator element and rotor element; furthermore, the protruding poles, by being rotated 45? in the stator element, enable a reduction of electric losses in its windings and a decrease in the operative temperature of both the stator element and the rotor element, which enables an increase of the motor operation efficiency. Similarly, the reduction of the operative temperature of the stator element allows the use of plastic materials for its components.

A single phase brushless motor includes a stator and a rotor. The stator includes a stator core and stator windings wound on the stator core. The stator core includes a yoke portion, and first and second pole portions extending inwardly from the yoke portion. An end surface of the first pole portion includes a first arc surface having a first groove. An end surface of the second pole portion includes a second arc surface having a second groove. The first and second arc surfaces are opposed to each other and define a receiving space therebetween. The rotor includes a rotary shaft and permanent magnetic poles fixed to the rotary shaft. The permanent magnetic poles are received in the receiving space. A substantially uniform gap is formed between the first arc surface and the second arc surface and the permanent magnetic poles.