A rotary electric machine including a rotor having salient poles, each salient pole comprising a pole body surrounded by at least one coil, and at least one pair of wedges comprising a first wedge positioned against the coil of a first salient pole and a second wedge positioned against the coil of a second salient pole consecutive with the first. The first and second wedges are able to move in the inter-pole space with respect to one another along the longitudinal axis of the rotor, and each having at least one contact surface, the contact surface or surfaces of the first wedge being configured to come into contact with the contact surface or surfaces of the second wedge as one wedge is moved longitudinally with respect to the other in such a way that the movement of one wedge with respect to the other induces a pressing of these wedges against the coils so as to hold the coils of the first and second salient poles respectively against the pole bodies of the first and second salient poles.

A slot wedge having a stem region and an engagement region perpendicular thereto radially closes a slot in an electrical machine. The engagement region is in engagement with deformed regions of a slot insulation material. A closure cap can fasten the slot wedge in the slot. Protrusions which limit a creepage distance can be provided on the stem region or on a possible closure cap.

The utility model provides a stator core assembly, and a motor and a vehicle having same. The stator core assembly includes: a stator core, which is provided with a plurality of stator teeth at intervals in a circumferential direction; and slot wedges, which are formed as magnetic material pieces, are arranged between two adjacent stator teeth and define slot spaces with the two adjacent stator teeth. According to the stator core assembly provided by the utility model, on one hand, the problems of large electromagnetic noise and big vibration of the motor are solved; furthermore, the stator core assembly effectively reduces the electromagnetic noise and vibration while keeping the structure and mechanical strength of the stator core unchanged to avoid influences caused by slotting the stator teeth; and on the other hand, the stator core assembly also has the advantages of being simple in structure, easy to machine and manufacture, high in practicability and the like.

Provided is a rotary electric machine that achieves high motor efficiency with little loss. This rotary electric machine is equipped with: a stator core arranged opposing the circumferential surface of a rotor, and in which multiple slots, wherein openings opening toward the rotor are formed, are formed in the circumferential direction; and coils inserted into the slots. A mixture of a soft magnetic powder and a resin material is formed in the openings of the slots, and the relative permeability of the mixture is 5-35.

A stator or rotor for an electrical machine including a plurality of segments is provided, the plurality of segments being circumferentially joined at their ends in such a way that a segment circumferential gap is interposed between two circumferentially adjacent segments, the stator or rotor including at least one spacing element provided between two circumferentially adjacent segments for preventing the coil windings of two circumferentially adjacent segments contacting each other.

A stator core includes teeth located in a circumferential direction and slots between the teeth and penetrating in an axial direction, and a wedge located radially inward of the slots. The stator core includes a groove portion at an end of each of the teeth in a circumferential direction. A portion of the wedge is located in the groove portion.

An electric machine includes a stator and a rotor. The stator has a yoke fitted over a ring that has a plurality of teeth with gaps therebetween for fitting metal windings. The ring of teeth has an inner circumference that is closed and to connect the teeth, and an outer circumference with open gaps or slots between the teeth. The metal windings are fitted through the open outer circumference. Regions of the closed inner circumference between the teeth are treated such that the region's magnetic permeability is reduced relative to the remainder of the stator. The reduction in magnetic permeability provides a magnetic flux barrier between the teeth.

A slot wedge for a slot in a stator of a dynamoelectric machine, wherein the slot wedge is formed as a longitudinally extending strip of insulating material, where the strip is provided with a punched portion.

A stator for a radial-flux rotary electric machine includes a yoke with a plurality of teeth, each tooth extending from a root at the yoke to a tip. The stator further includes a plurality of coils, each one of which being located on a respective one of the plurality of teeth, the coils being sized such that a slot fill factor is between zero and unity to define axial voids in the slots. The stator further includes a plurality of magnetic sealing members, each one of which being engaged with the tips of adjacent teeth to circumferentially and axially seal the axial voids in the slots for retaining an axial flow of coolant therein, the magnetic sealing members being composed of a magnetic material to provide a flux path between adjacent tooth tips to increase an amount of leakage flux.

A wedge for use in an electric machine includes a central portion comprising at least a first material, a first wing integrally attached to the central portion, and a second wing integrally attached to the central portion opposite the first wing, wherein the first wing, and the second wing include a second material.