An electric motor including a rotor rotatably mounted about a rotational axis extending in the axial direction, and a stator including stator teeth widened in a T shape at the tooth-base side to form pole tabs and extending in the circumferential direction. The pole tabs may form a bearing shoulder. A respective stator slot for receiving coils of a stator winding is formed between adjacent stator teeth and a slot opening formed between mutually facing pole tabs. A reinforcing element may be inserted into a slot opening. The reinforcing element are held on mutually facing pole tabs of adjacent stator teeth by the bearing shoulders. The reinforcing element includes a contour that engages a bearing region to reduce a contact area with the bearing shoulders.

Provided is an inspection device for a rotating electric machine, the inspection device including a photographing device, a drive mechanism, a display, and a controller. The photographing device photographs a pattern formed on a surface of a wedge constituting part of an armature. The drive mechanism moves the photographing device with respect to a stator functioning as the armature. The controller detects strain of the wedge by comparing image data of the pattern photographed by the photographing device with reference data of the pattern. In this manner, the inspection device for a rotating electric machine can easily detect the strain of the wedge. Further, the controller estimates loosening of the wedge based on the strain of the wedge, and informs an operator of the rotating electric machine through the display that the loosening of the wedge has occurred.

A stator with closed slots with continuous winding is described, comprising: a first, internal stator part comprising longitudinal teeth, spaced by a space configured to make the lower part of the closed slots of the stator; a second, external annular stator part, comprising seats complementary with the teeth and configured to be meshed with the first stator part in order to form the closed slots and the stator; a continuous winding comprising a strap, which comprises first sectors mutually connected by second sectors alternate thereto, the strap being configured to be wound on the first, internal stator part, by placing the first sectors into the spaces included between the teeth; a process for making such stator is further described.

A stator with closed slots with continuous winding is described, comprising: a first, internal stator part comprising longitudinal teeth, spaced by a space configured to make the lower part of the closed slots of the stator; a second, external annular stator part, comprising seats complementary with the teeth and configured to be meshed with the first stator part in order to form the closed slots and the stator; a continuous winding comprising a strap, which comprises first sectors mutually connected by second sectors alternate thereto, the strap being configured to be wound on the first, internal stator part, by placing the first sectors into the spaces included between the teeth; a process for making such stator is further described.

A process is described, for making a continuous winding for a stator of an electric machine comprising the following steps: bending on a plane of a strip to make a strap in a single piece, which comprises first sectors to be inserted inside closed slots of a stator and connected by second bending sectors which remain outside the slots; providing a first, internal stator part comprising a plurality of longitudinal teeth, spaced by a space which makes the lower part of the slots; making the winding on the first stator part, by placing the first sectors of strap in the spaces included between the teeth; and connecting the two free ends of every strap; a continuous winding made with such process is further described.

A process is described, for making a continuous winding for a stator of an electric machine comprising the following steps: bending on a plane of a strip to make a strap in a single piece, which comprises first sectors to be inserted inside closed slots of a stator and connected by second bending sectors which remain outside the slots; providing a first, internal stator part comprising a plurality of longitudinal teeth, spaced by a space which makes the lower part of the slots; making the winding on the first stator part, by placing the first sectors of strap in the spaces included between the teeth; and connecting the two free ends of every strap; a continuous winding made with such process is further described.

A stator of an electric machine includes: a laminated stator core having sheet-metal blanks which have apertures, the apertures being closed radially on an inside thereof by a web when viewed in a cross section extending in a radial direction of the stator; and stator windings, which are accommodated in the apertures of the laminated stator core. The web which closes a respective aperture radially on the inside is plastically deformed so as to introduce a mechanical stress into the web.

A stator of an electric machine includes: a laminated stator core having sheet-metal blanks which have apertures, the apertures being closed radially on an inside thereof by a web when viewed in a cross section extending in a radial direction of the stator; and stator windings, which are accommodated in the apertures of the laminated stator core. The web which closes a respective aperture radially on the inside is plastically deformed so as to introduce a mechanical stress into the web.

A liquid-cooled rotating electric machine may include an inner stator and outer rotor configured to rotate about the stator. A hub may be disposed within the inner stator and a heat exchanger may be disposed in the hub. The heat exchanger may be configured to enable the flow a liquid through it to dissipate heat from the stator.

A brushless direct-current (BLDC) motor is provided with a stator assembly including a stator core and stator windings wound around stator teeth, a rotor shaft extending along a longitudinal axis, and a rotor including a rotor core mounted on the rotor shaft supporting at least one permanent magnet. A circuit board is provided including a main body and at least one leg radially projecting from the main body to support at least one magnetic sensor near the permanent magnet. The leg of the circuit board oriented along a radial plane that intersects the stator windings.